MMPDS 31 January 2003

APPENDIX A A.0 GLOSSARY A.1 ABBREVIATIONS a ac ao A

— — — —

Aε Ai AD

— — —

AISI AMS Ann AN ASTM b br B

— — — — — — — —

Btu BUS BYS c cpm C CEM CRES C(T) CYS d D or d df e

— — — — — — — — — — — — — —

ee ep e/D

— — —

E

—

Amplitude; crack or flaw dimension; measure of flaw size, inches. Critical half crack length. Initial half crack length. Area of cross section, square inches; ratio of alternating stress to mean stress; subscript “axial”; A basis for mechanical-property values (see Section 1.4.1.1 or Section 9.1.6); “A” ratio, loading amplitude/mean load; or area. Strain “A” ratio, strain amplitude/mean strain. Model parameter. Anderson-Darling test statistic, computed in goodness-of-fit tests for normality or Weibullness. American Iron and Steel Institute. Aerospace Materials Specification (published by Society of Automotive Engineers, Inc.). Annealed. Air Force-Navy Aeronautical Standard. American Society for Testing and Materials. Width of sections; subscript “bending”. Subscript “bearing”. Biaxial ratio (see Equation 1.3.2.(h)); B-basis for mechanical-property values (see Section 1.4.1.1 or Section 9.1.6). British thermal unit(s). Individual or typical bearing ultimate strength. Individual or typical bearing yield strength. Fixity coefficient for columns; subscript “compression”. Cycles per minute. Specific heat; Celsius; Constant. Consumable electrode melted. Corrosion resistant steel (stainless steel). Compact tension. Individual or typical compressive yield strength. Mathematical operator denoting differential. Diameter, or Durbin Watson statistic; hole or fastener diameter; dimpled hole. Degrees of freedom. Elongation in percent, a measure of the ductility of a material based on a tension test; unit deformation or strain; subscript “fatigue or endurance”; the minimum distance from a hole, center to the edge of the sheet; Engineering strain. Elastic strain. Plastic strain. Ratio of edge distance (center of the hole to edge of the sheet) to hole diameter (bearing strength). Modulus of elasticity in tension or compression; average ratio of stress to strain for stress below proportional limit.

A-1

MMPDS 31 January 2003 Ec Es Et ELI ER ESR f fb fc fpl fs ft ft F FA Fb Fbru Fbry Fc Fcc Fcu Fcy FH Fs Fsp Fst Fsu Fsy Ftp Ftu Fty g G Gpa hr H HIP i in. I J k k99, k90 kA,B ksi

— Modulus of elasticity in compression; average ratio of stress to strain below proportional limit. — Secant modulus of elasticity, Eq. 9.8.4.2(c). — Tangent modulus of elasticity. — Extra low interstitial (grade of titanium alloy). — Equivalent round. — Electro-slag remelted. — Internal (or calculated) tension stress; stress applied to the gross flawed section; creep stress. — Internal (or calculated) primary bending stress. — Internal (or calculated) compressive stress; maximum stress at fracture: gross stress limit (for screening elastic fracture data). — Proportional limit. — Internal (or calculated) shear stress. — Internal (or calculated) tensile stress. — Foot: feet. — Design stress; Fahrenheit; Ratio of two sample variances. — Design axial stress. — Design bending stress; modulus of rupture in bending. — Design ultimate bearing stress. — Design bearing yield stress. — Design column stress. — Design crushing or crippling stress (upper limit of column stress for local failure). — Design ultimate compressive stress. — Design compressive yield stress at which permanent strain equals 0.002. — Design hoop stress. — Design shear stress. — Design proportional limit in shear. — Design modulus of rupture in torsion. — Design ultimate stress in pure shear (this value represents the average shear stress over the cross section). — Design shear yield stress. — Design proportional limit in tension. — Design tensile ultimate stress. — Design tensile yield stress at which permanent strain equals 0.002. — Gram(s). — Modulus of rigidity (shear modulus). — Gigapascal(s). — Hour(s). — Subscript “hoop”. — Hot isostatically pressed. — Slope (due to bending) of neutral plane of a beam, in radians (1 radian = 57.3 degrees). — Inch(es). — Axial moment of inertia. — Torsion constant (= Ip for round tubes); Joule. — Tolerance limit factor for the normal distribution and the specified probability, confidence, and degrees of freedom; Strain at unit stress. — One-sided tolerance limit factor for T99 and T90, respectively (see Section 9.10.1 and 9.10.7). — k factor for A basis or B basis, respectively (see Section 9.10.1 and 9.10.7). — Kips (1,000 pounds) per square inch.

A-2

MMPDS 31 January 2003 K Kapp Kc Kf KIc KN Kt lb ln log L LT m mm M Mc Mg MIG MPa MS M.S. M(T) n N Nf Ni* Nt* NAS p psi P Pa Pm Pmax Pmin Pu Py q Q Q&T

— A constant, generally empirical; thermal conductivity; stress intensity; Kelvin; correction factor. — Apparent plane stress fracture toughness or residual strength. — Critical plane stress fracture toughness, a measure of fracture toughness at point of crack growth instability. — Fatigue notch factor, or fatigue strength reduction factor. — Plane strain fracture toughness. — Empirically calculated fatigue notch factor. — Theoretical stress concentration factor. — Pound. — Natural (base e) logarithm. — Base 10 logarithm. — Length; subscript “lateral”; longitudinal (grain direction). — Long transverse (grain direction). — Subscript “mean”; metre; slope. — Millimeter(s). — Applied moment or couple, usually a bending moment. — Machine countersunk. — Megagram(s). — Metal-inert-gas (welding). — Megapascal(s). — Military Standard. — Margin of safety. — Middle tension. — Number of individual measurements or pairs of measurements; subscript “normal”; cycles applied to failure; shape parameter for the standard stress-strain curve (Ramberg-Osgood parameter); number of fatigue cycles endured. — Fatigue life, number of cycles to failure; Newton; normalized. — Fatigue life, cycles to failure. — Fatigue life, cycles to initiation. — Transition fatigue life where plastic and elastic strains are equal. — National Aerospace Standard. — Subscript “polar”; subscript “proportional limit”. — Pounds per square inch. — Load; applied load (total, not unit, load); exposure parameter; probability. — Load amplitude. — Mean load. — Maximum load. — Minimum load. — Test ultimate load, pounds per fastener. — Test yield load, pounds per fastener. — Fatigue notch sensitivity. — Static moment of a cross section. — Quenched and tempered.

* Different from ASTM. A-3

MMPDS 31 January 2003 r r R Rb Rc Rε Rs Rt RA R.H. RMS RT s s2 S Sa Se Seq* Sf sm Smax Smin Sr Sy SAE SCC SEE SR ST STA SUS SYS t T TF T90 T99 TIG TUS

— Radius; root radius; reduced ratio (regression analysis); ratio of two pair measurements; rank of test point within a sample. — average ratio of paired measurements. — Load (stress) ratio, or residual (observed minus predicted value); stress ratio, ratio of minimum stress to maximum stress in a fatigue cycle; reduced ratio. — Stress ratio in bending. — Stress ratio in compression; Rockwell hardness - C scale. — Strain ratio, εmin/εmax. — Stress ratio in shear or torsion; ratio of applied load to allowable shear load. — Ratio of applied load to allowable tension load. — Reduction of area. — Relative humidity. — Root-mean-square (surface finish). — Room temperature. — Estimated population standard deviation; sample standard deviation; subscript “shear”. — Sample variance. — Shear force; nominal engineering stress, fatigue; S-basis for mechanical-property values (see Section 1.4.1.1). — Stress amplitude, fatigue. — Fatigue limit. — Equivalent stress. — Fatigue limit. — Mean stress, fatigue. — Highest algebraic value of stress in the stress cycle. — Lowest algebraic value of stress in the stress cycle. — Algebraic difference between the maximum and minimum stresses in one cycle. — Root mean square error. — Society of Automotive Engineers. — Stress-corrosion cracking. — Estimate population standard error of estimate. — Studentized residual. — Short transverse (grain direction). — Solution treated and aged. — Individual or typical shear ultimate strength. — Individual or typical shear yield strength. — Thickness; subscript “tension”; exposure time; elapsed time; tolerance factor for the “t” distribution with the specified probability and appropriate degrees of freedom. — Transverse direction; applied torsional moment; transverse (grain direction); subscript “transverse”. — Exposure temperature. — Statistically based lower tolerance bound for a mechanical property such that at least 90 percent of the population is expected to exceed T90 with 95 percent confidence. — Statistically based lower tolerance bound for a mechanical property such that at least 99 percent of the population is expected to exceed T99 with 95 percent confidence. — Tungsten-inert-gas (welding). — Individual or typical tensile ultimate strength.

* Different from ASTM. A-4

MMPDS 31 January 2003 TUS (Su)* TYS u U V99,V90

— — — — —

W x X y

— — — — —

Y

—

z Z

— —

x

Tensile ultimate strength. Individual or typical tensile yield strength. Subscript “ultimate”. Factor of utilization. The tolerance limit factor corresponding to T99, T90 for the three-parameter Weibull distribution, based on a 95 percent confidence level and a sample of size n. Width of center-through-cracked tension panel; Watt. Distance along a coordinate axis. Sample mean based upon n observations. Value of an individual measurement; average value of individual measurements. Deflection (due to bending) of elastic curve of a beam; distance from neutral axis to given fiber; subscript “yield”; distance along a coordinate axis. Nondimensional factor relating component geometry and flaw size. See Reference 1.4.12.2.1(a) for values. Distance along a coordinate axis. Section modulus, I/y.

A.2 SYMBOLS α α99, α90 α50 β β99, β90 β50 ∆ε or εr* ∆εe ∆εp ∆S (Sr)* ∆σ ε εeq* εm εmax εmin εt δ Φ ρ µ

σ

— (1) Coefficient of thermal expansion, mean; constant. (2) Significance level; probability (risk of erroneously rejecting the null hypothesis (see Section 9.5.3)). — Shape parameter estimates for a T99 or T90 value based on an assumed three-parameter Weibull distribution. — Shape parameter estimate for the Anderson-Darling goodness-of-fit test based on an assumed three-parameter Weibull distribution. — Constant. — Scale parameter estimate for a T99 or T90 value based on an assumed three-parameter Weibull distribution. — Scale parameter estimate for the Anderson-Darling goodness-of-fit test based on an assumed three-parameter Weibull distribution. — strain range, εmax - εmin. — Elastic strain range. — Plastic strain range. — Stress range. — True or local stress range. — True or local strain. — Equivalent strain. — Mean strain, (εmax + εmin)/2. — Maximum strain. — Minimum strain. — Total (elastic plus plastic) strain at failure determined from tensile stress-strain curve. — Deflection. — Angular deflection. — Radius of gyration; Neuber constant (block length). — Poisson’s ratio. — True or local stress; or population standard deviation.

* Different from ASTM. A-5

MMPDS 31 January 2003

σx σ x2 τ 99, τ 90 τ 50 ω 4 G N

— Population standard deviation of x. — Population variance of x. — Threshold estimates for a T99 or T90 value based on an assumed three-parameter Weibull distribution. — Threshold estimate for the Anderson-Darling goodness-of-fit test based on an assumed three-parameter Weibull distribution. — Density; flank angle. — Infinity. — The sum of. — Superscript that denotes value determined by regression analysis. A.3 DEFINITIONS

A-Basis.—The lower of either a statistically calculated number, or the specification minimum (S-basis). The statistically calculated number indicates that at least 99 percent of the population of values is expected to equal or exceed the A-basis mechanical design property, with a confidence of 95 percent. Alternating Load.—See Loading Amplitude. B-Basis.—At least 90 percent of the population of values is expected to equal or exceed the B-basis mechanical property allowable, with a confidence of 95 percent. Cast.—Cast consists of the sequential ingots which are melted from a single furnace change and poured in one or more drops without changes in the processing parameters. (The cast number is for internal identification and is not reported.) (See Table 9.2.4.2). Casting.—One or more parts which are melted from a single furnace change and poured in one or more molds without changes in the processing parameters. (The cast number is for internal identification and is not reported.) (See Table 9.2.4.2). Confidence.—A specified degree of certainty that at least a given proportion of all future measurements can be expected to equal or exceed the lower tolerance limit. Degree of certainty is referred to as the confidence coefficient. For MMPDS, the confidence coefficient is 95 percent which, as related to design properties, means that, in the long run over many future samples, 95 percent of conclusions regarding exceedance of A and B-values would be true. Confidence Interval.—An interval estimate of a population parameter computed so that the statement “the population parameter lies in this interval” will be true, on the average, in a stated proportion of the times such statements are made. Confidence Interval Estimate.—Range of values, computed with the sample that is expected to include the population variance or mean. Confidence Level (or Coefficient).—The stated portion of the time the confidence interval is expected to include the population parameter.

A-6

MMPDS 31 January 2003 Confidence Limits*.—The two numeric values that define a confidence interval. Constant-Amplitude Loading.—A loading in which all of the peak loads are equal and all of the valley loads are equal. Constant-Life Fatigue Diagram.—A plot (usually on Cartesian coordinates) of a family of curves, each of which is for a single fatigue life, N—relating S, Smax, and/or Smin to the mean stress, Sm. Generally, the constant life fatigue diagram is derived from a family of S/N curves, each of which represents a different stress ratio (A or R) for a 50 percent probability of survival. NOTE— MMPDS does not present fatigue data in the form of constant-life diagrams. Creep.—The time-dependent deformation of a solid resulting from force. Note 1—Creep tests are usually made at constant load and temperature. For tests on metals, initial loading strain, however defined, is not included. Note 2—This change in strain is sometimes referred to as creep strain. Creep-Rupture Curve.—Results of material tests under constant load and temperature; usually plotted as strain versus time to rupture. A typical plot of creep-rupture data is shown below. The strain indicated in this curve includes both initial deformation due to loading and plastic strain due to creep.

Figure A.1. Typical creep-rupture curve.

Creep-Rupture Strength.—Stress that will cause fracture in a creep test at a given time, in a specified constant environment. Note: This is sometimes referred to as the stress-rupture strength. Creep-Rupture Test.—A creep-rupture test is one in which progressive specimen deformation and time for rupture are measured. In general, deformation is much larger than that developed during a creep test.

* Different from ASTM. A-7

MMPDS 31 January 2003 Creep-Strain.—The time-dependent part of the strain resulting from stress, excluding initial loading strain and thermal expansion. Creep Strength.—Stress that causes a given creep in a creep test at a given time in a specified constant environment. Creep Stress.—The constant load divided by the original cross-sectional area of the specimen. Creep Test.—A creep test has the objective of measuring deformation and deformation rates at stresses usually well below those which would result in fracture during the time of testing. Critical Stress Intensity Factor.—A limiting value of the stress intensity factor beyond which continued flaw propagation and/or fracture may be expected. This value is dependent on material and may vary with type of loading and conditions of use. Cycle.—Under constant-amplitude loading, the load varies from the minimum to the maximum and then to the minimum load. The symbol n or N (see definition of fatigue life) is used to indicate the number of cycles. Deformable Shank Fasteners.—A fastener whose shank is deformed in the grip area during normal installation processes. Degree of Freedom.—Number of degrees of freedom for n variables may be defined as number of variables minus number of constraints between them. Since the standard deviation calculation contains one fixed value (the mean) it has n - 1 degrees of freedom. Degrees of Freedom.—Number of independent comparisons afforded by a sample. Discontinued Test.—See Runout. Elapsed Time.—The time interval from application of the creep stress to a specified observation. Fatigue.—The process of progressive localized permanent structural change occurring in a material subjected to conditions that produce fluctuating stresses and strains at some point or points, and which may culminate in cracks or complete fracture after a sufficient number of fluctuations. NOTE—fluctuations in stress and in time (frequency), as in the case of “random vibration.” Fatigue Life.—N—the number of cycles of stress or strain of a specified character that a given specimen sustains before failure of a specified nature occurs. Fatigue Limit.—Sf—the limiting value of the median fatigue strength as N becomes very large. NOTE—Certain materials and environments preclude the attainment of a fatigue limit. Values tabulated as “fatigue limits” in the literature are frequently (but not always) values of SN for 50 percent survival at N cycles of stress in which Sm = 0. Fatigue Loading.—Periodic or non-periodic fluctuating loading applied to a test specimen or experienced by a structure in service (also known as cyclic loading). Fatigue Notch Factor*.—The fatigue notch factor, Kf (also called fatigue strength reduction factor), is the ratio of the fatigue strength of a specimen with no stress concentration to the fatigue strength of a specimen * Different from ASTM. A-8

MMPDS 31 January 2003 with a stress concentration at the same number of cycles for the same conditions. NOTE—In specifying Kf, it is necessary to specify the geometry, mode of loading, and the values of Smax, Sm, and N for which it is computed. Fatigue Notch Sensitivity.—The fatigue notch sensitivity, q, is a measure of the degree of agreement between Kf and Kt. NOTE—the definition of fatigue notch sensitivity is q = (Kf - 1)/(Kt - 1). Heat.—All material identifiable to a single molten metal source. (All material from a heat is considered to have the same composition. A heat may yield one or more ingots. A heat may be divided into several lots by subsequent processing.) Heat.—Heat is material which, in the case of batch melting, is cast at the same time from the same furnace and is identified with the same heat number; or, in the case of continuous melting, is poured without interruption. (See Table 9.2.4.2) Heat.—Heat is a consolidated (vacuum hot pressed) billet having a distinct chemical composition. (See Table 9.2.4.2) Hysteresis Diagram.—The stress-strain path during a fatigue cycle. Isostrain Lines.—Lines representing constant levels of creep. Isothermal Lines.—Lines of uniform temperature on a creep or stress-rupture curve. Interrupted Test*.—Tests which have been stopped before failure because of some mechanical problem, e.g., power failure, load or temperature spikes. Loading Amplitude.—The loading amplitude, Pa, Sa, or εa represents one-half of the range of a cycle. (Also known as alternating load, alternating stress, or alternating strain.) Loading Strain.—Loading strain is the change in strain during the time interval from the start of loading to the instant of full-load application, sometimes called initial strain. Loading (Unloading) Rate.—The time rate of change in the monotonically increasing (decreasing) portion of the load-time function. Load Ratio.—The load ratio, R, A, or Rε, Aε, or Rσ, Aσ, is the algebraic ratio of the two loading parameters of a cycle; the two most widely used ratios are

* Different from ASTM. A-9

MMPDS 31 January 2003

R '

P minimum load ' min Pmax maximum load

or

Rσ '

Smin Smax

or Rε ' εmin/εmax

and A '

Aε '

P S loading amplitude ' a or a Pm SM mean load

ε strain amplitude ' a or εmax & εmin / εmax % εmin εM mean strain

.

NOTE—load ratios R or Rε are generally used in MMPDS. Longitudinal Direction.—Parallel to the principal direction of flow in a worked metal. For die forgings this direction is within ±15E of the predominate grain flow. Long-Transverse Direction.—The transverse direction having the largest dimension, often called the “width” direction. For die forgings this direction is within ±15E of the longitudinal (predominate) grain direction and parallel, within ±15E, to the parting plane. (Both conditions must be met.) Lot.—All material from a heat or single molten metal source of the same product type having the same thickness or configuration, and fabricated as a unit under the same conditions. If the material is heat treated, a lot is the above material processed through the required heat-treating operations as a unit. Master Creep Equation.—An equation expressing combinations of stress, temperature, time and creep, or a set of equations expressing combinations of stress, temperature and time for given levels of creep. Master Rupture Equation.—An equation expressing combinations of stress, temperature, and time that cause complete separation (fracture or rupture) of the specimen.

A-10

MMPDS 31 January 2003 Maximum Load.—The maximum load, Pmax, Smax, εmax is the load having the greatest algebraic value. Mean Load.—The mean load, Pm, is the algebraic average of the maximum and minimum loads in constantamplitude loading:

Pm '

Sm '

εm '

Pmax % Pmin 2

Smax % Smin 2 εmax % εmin 2

, or

, or

,

or the integral average of the instantaneous load values. Median Fatigue Life.—The middlemost of the observed fatigue life values (arranged in order of magnitude) of the individual specimens in a group tested under identical conditions. In the case where an even number of specimens are tested, it is the average of the two middlemost values (based on log lives in MMPDS). NOTE 1—The use of the sample median instead of the arithmetic mean (that is, the average) is usually preferred. NOTE 2—In the literature, the abbreviated term “fatigue life” usually has meant the median fatigue life of the group. However, when applied to a collection of data without further qualification, the term “fatigue life” is ambiguous. Median Fatigue Strength at N Cycles.—An estimate of the stress level at which 50 percent of the population would survive N cycles. NOTE—The estimate of the median fatigue strength is derived from a particular point of the fatigue-life distribution, since there is no test procedure by which a frequency distribution of fatigue strengths at N cycles can be directly observed. That is, one can not perform constant-life tests. Melt.—Melt is a single homogeneous batch of molten metal for which all processing has been completed and the temperature has been adjusted and made ready to pour castings. (For metal-matrix composites, the molten metal includes unmelted reinforcements such as particles, fibers, or whiskers.) (See Table 9.1.6.2) Minimum Load.—The minimum load, Pmin, Smin, or εmin, is the load having the least algebraic value. Nominal Hole Diameters.—Nominal hole diameters for deformable shank fasteners shall be according to Table 9.4.1.2(a). When tests are made with hole diameters other than those tabulated, hole sizes used shall be noted in the report and on the proposed joint allowables table. Nominal Shank Diameter.—Nominal shank diameter of fasteners with shank diameters equal to those used for standard size bolts and screws (NAS 618 sizes) shall be the decimal equivalents of stated fractional or numbered sizes. These diameters are those listed in the fourth column of Table 9.7.1.1. Nominal shank diameters for nondeformable shank blind fasteners are listed in the fifth column of Table 9.7.1.1. Nominal shank diameters for other fasteners shall be the average of required maximum and minimum shank diameters.

A-11

MMPDS 31 January 2003 Nondeformable Shank Fasteners.—A fastener whose shank does not deform in the grip area during normal installation processes. Outlier*—An experimental observation which deviates markedly from other observations in the sample. An outlier is often either an extreme value of the variability in the data, or the result of gross deviation in the material or experimental procedure. Peak.—The point at which the first derivative of the load-time history changes from a positive to a negative sign; the point of maximum load in constant-amplitude loading. Plane Strain.—The stress state in which all strains occur only in the principal loading plane. No strains occur out of the plane, i.e., εz = 0, and σz … 0. Plane Stress.—The stress state in which all stresses occur only in the principal loading plane. No stresses occur out of the plane, i.e., σz = 0, and εz … 0. Plastic Strain During Loading.—Plastic strain during loading is the portion of the strain during loading determined as the offset from the linear portion to the end of a stress-strain curve made during load application. Plane-Strain Fracture Toughness.—A generic term now generally adopted for the critical plane-strain stress intensity factor characteristic of plane-strain fracture, symbolically denoted KIc. This is because in current fracture testing practices, specification of the slowly increasing load test of specimen materials in the plane-strain stress state and in opening mode (I) has been dominant. Plane-Stress and Transitional Fracture Toughness.—A generic term denoting the critical stress intensity factor associated with fracture behavior under nonplane-strain conditions. Because of plasticity effects and stable crack growth which can be encountered prior to fracture under these conditions, designation of a specific value is dependent on the stage of crack growth detected during testing. Residual strength or apparent fracture toughness is a special case of plane-stress and transitional fracture toughness wherein the reference crack length is the initial pre-existing crack length and subsequent crack growth during the test is neglected. Population.—All potential measurements having certain independent characteristics in common; i.e., “all possible TUS(L) measurements for 17-7PH stainless steel sheet in TH1050 condition”. Precision.*—The degree of mutual agreement among individual measurements. Relative to a method of test, precision is the degree of mutual agreement among individual measurements made under prescribed like conditions. The lack of precision in a measurement may be characterized as the standard deviation of the errors in measurement. Primary Creep.—Creep occurring at a diminishing rate, sometimes called initial stage of creep. Probability.—Ratio of possible number of favorable events to total possible number of equally likely events. For example, if a coin is tossed, the probability of heads is one-half (or 50 percent) because heads can occur one way and the total possible events are two, either heads or tails. Similarly, the probability of

* Different from ASTM. A-12

MMPDS 31 January 2003 throwing a three or greater on a die is 4/6 or 66.7 percent. Probability, as related to design allowables, means that chances of a material-property measurement equaling or exceeding a certain value (the onesided lower tolerance limit) is 99 percent in the case of a A-basis value and 90 percent in the case of a Bbasis value. Range.—Range, ∆P, Sr, ∆ε, εr, ∆σ is the algebraic difference between successive valley and peak loads (positive range or increasing load range) or between successive peak and valley loads (negative range or decreasing load range), see Figure 9.3.4.3. In constant-amplitude loading, for example, the range is given by ∆P = Pmax - Pmin. Rate of Creep.—The slope of the creep-time curve at a given time determined from a Cartesian plot. Residual.*—The difference between the observed fatigue (log) life and the fatigue (log) life estimated from the fatigue model at a particular stress/strain level. Runout.*—A test that has been terminated prior to failure. Runout tests are usually stopped at an arbitrary life value because of time and economic considerations. NOTE—Runout tests are useful for estimating a pseudo-fatigue-limit for a fatigue data sample. Sample.—A finite number of observations drawn from the population. Sample.—The number of specimens selected from a population for test purposes. NOTE—The method of selecting the sample determines the population about which statistical inferences or generalization can be made. Sample Average (Arithmetic Mean).—The sum of all the observed values in a sample divided by the sample size (number). It is a point estimate of the population mean. Sample Mean.—Average of all observed values in the sample. It is an estimate of population mean. A mean is indicated by a bar over the symbol for the value observed. Thus, the mean of n observations of TUS would be expressed as: j (TUS ) i i'1 ' n n

TUS '

TUS1 % TUS2 % ... % TUSn n

Sample Median.—Value of the middle-most observation. If the sample is nearly normally distributed, the sample median is also an estimate of the population mean. Sample Median.—The middle value when all observed values in a sample are arranged in order of magnitude if an odd number of samples are tested. If the sample size is even, it is the average of the two middlemost values. It is a point estimate of the population median, or 50 percentile point. Sample Point Deviation.—The difference between an observed value and the sample mean. Sample Standard Deviation.**—The standard deviation of the sample, s, is the square root of the sample variance. It is a point estimate of the standard deviation of a population, a measure of the "spread" of the * Different from ASTM. ** Different from ASTM. A-13

MMPDS 31 January 2003 frequency distribution of a population. NOTE—This value of s provides a statistic that is used in computing interval estimates and several test statistics. Sample Variance.*—Sample variance, s2, is the sum of the squares of the differences between each observed value and the sample average divided by the sample size minus one. It is a point estimate of the population variance. NOTE—This value of s2 provides both an unbiased point estimate of the population variance and a statistic that is used on computing the interval estimates and several test statistics. Some texts define s2 as “the sum of the squared differences between each observed value and the sample average divided by the sample size”, however, this statistic underestimates the population variance, particularly for small sample sizes. Sample Variance.—The sum of the squared deviations, divided by n - 1, and, based on n observations of TUS, expressed as nj (TUSi)2 & j TUSi

2 j TUSi & TUS n

2

STUS '

i'1

n & 1

n

'

i'1

n

2

i'1

n(n & 1)

S-Basis.—The S-value is the minimum property value specified by the governing industry specification (as issued by standardization groups such as SAE Aerospace Materials Division, ASTM, etc.) or federal or military standards for the material. (See MIL-STD-970 for order of preference for specifications.) For certain products heat treated by the user (for example, steels hardened and tempered to a designated Ftu), the Svalue may reflect a specified quality-control requirement. Statistical assurance associated with this value is not known. Secondary Creep.—Creep occurring at a constant rate, sometimes called second stage creep. Short-Transverse Direction.—The transverse direction having the smallest dimension, often called the “thickness” direction. For die forgings this direction is within ±15E of the longitudinal (predominate) grain direction and perpendicular, within ±15E, to the parting plane. (Both conditions must be met.) When possible, short transverse specimens shall be taken across the parting plane. Significance Level (As Used Here).—Risk of concluding that two samples were drawn from different populations when, in fact, they were drawn from the same population. A significance level of α = 0.05 is employed through these Guidelines.* Significance Level.—The stated probability (risk) that a given test of significance will reject the hypothesis that a specified effect is absent when the hypothesis is true. Significant (Statistically Significant).—An effect or difference between populations is said to be present if the value of a test statistic is significant, that is, lies outside of predetermined limits. NOTE—An effect that is statistically significant may not have engineering importance. S/N Curve for 50 Percent Survival.**—A curve fitted to the median values of fatigue life at each of several stress levels. It is an estimate of the relationship between applied stress and the number of cycles-to-failure that 50 percent of the population would survive. NOTE 1—This is a special case of the more general * This is appropriate, since a confidence level of 1 - α = 0.95 is used in establishing A and B-values. ** Different from ASTM. A-14

MMPDS 31 January 2003 definition of S/N curve for P percent survival. NOTE 2—In the literature, the abbreviated term “S/N Curve” usually has meant either the S/N curve drawn through the mean (averages) or through the medians (50 percent values) for the fatigue life values. Since the term “S/N Curve” is ambiguous, it should be used only when described appropriately. NOTE 3—Mean S/N curves (based on log lives) are shown in MMPDS. S/N Diagram.—A plot of stress against the number of cycles to failure. The stress can be Smax, Smin, or Sa. The diagram indicates the S/N relationship for a specified value of Sm, A, or R and a specified probability of survival. Typically, for N, a log scale (base 10) is used. Generally, for S, a linear scale is used, but a log scale is used occasionally. NOTE—Smax-versus-log N diagrams are used commonly in MMPDS. Standard Deviation.—An estimate of the population standard deviation; the square root of the variance, or nj TUSi 2 & j TUSi 2

2 j TUSi & TUS n

STUS'

i'1

n & 1

n

'

i'1

n

i'1

n(n & 1)

Stress Intensity Factor.—A physical quantity describing the severity of a flaw in the stress field of a loaded structural element. The gross stress in the material and flaw size are characterized parametrically by the stress intensity factor, K ' f a Y, ksi & in.1/2

Stress-Rupture Test—A stress-rupture test is one in which time for rupture is measured, no deformation measurement being made during the test. Tertiary Creep.—Creep occurring at an accelerating rate, sometimes called third stage creep. Theoretical Stress Concentration Factor (or Stress Concentration Factor).—This factor, Kt, is the ratio of the nominal stress to the greatest stress in the region of a notch (or other stress concentrator) as determined by the theory of elasticity (or by experimental procedures that give equivalent values). NOTE—The theory of plasticity should not be used to determine Kt. Tolerance Interval.—An interval computed so that it will include at least a stated percentage of the population with a stated probability. Tolerance Level.—The stated probability that the tolerance interval includes at least the stated percentage of the population. It is not the same as a confidence level, but the term confidence level is frequently associated with tolerance intervals.

A-15

MMPDS 31 January 2003 Tolerance Limits.—The two statistics that define a tolerance interval. (One value may be “minus infinity” or “plus infinity”.) Total Plastic Strain.—Total plastic strain at a specified time is equal to the sum of plastic strain during loading plus creep. Total Strain.—Total strain at any given time, including initial loading strain (which may include plastic strain in addition to elastic strain) and creep strain, but not including thermal expansion. Transition Fatigue Life.*—The point on a strain-life diagram where the elastic and plastic strains are equal. Transverse Direction.—Perpendicular to the principal direction of flow in a worked metal; may be defined as T, LT or ST. Typical Basis.—A typical property value is an average value and has no statistical assurance associated with it. Waveform.—The shape of the peak-to-peak variation of a controlled mechanical test variable (for example, load, strain, displacement) as a function of time.

* Different from ASTM. A-16

MMPDS 31 January 2003 A.4 Conversion of U.S. Units of Measure Used in MMPDS to SI Units

Quantity or Property

To Convert From U. S. Unit

Multiply bya

Area

in.2

645.16c

Force

lb

4.4482

Length

in.

c

Stress

ksi

6.895

Megapascal (MPa)d

Stress intensity factor

ksi in.

1.0989

Megapascal meter (MPa @ m ½ )d

Modulus

103 ksi

6.895

Gigapascal (GPa)d

Temperature

EF

Density (ω)

lb/in.3

25.4

F + 459.67 1.8 27.680

SI Unitb Millimeter2 (mm2) Newton (N) Millimeter (mm)

Kelvin (K) Megagram/meter3 (Mg/m3)

Specific heat (C)

Btu/lb@F (or Btu@lb-1@F-1)

4.1868c

Joule/(gram@Kelvin) (J/g@K) or (J@g-1 @K-1)

Thermal conductivity (K)

Btu/[(hr)(ft2)(F)/ft] (or Btu@hr-1@ft-2@F-1@ft)

1.7307

Watt/(meter@Kelvin) W/(m@K) or (W@m-1@K-1)

1.8

Meter/meter/Kelvin m/(m@K) or (m@m-1@K-1)

Thermal expansion (α)

in./in./F (or [email protected]@F-1)

a Conversion factors to give significant figures are as specified in ASTM E 380, NASA SP-7012, second revision. NBS Special Publication 330, and Metals Engineering Quarterly. Note: Multiple conversions between U.S. and SI units should be avoided because significant round-off errors may result. b Prefix Multiple Prefix Multiple giga (G) 109 milli (m) 10-3 mega (M) 106 micro (µ) 10-6 kilo (k) 103 c Conversion factor is exact. d One Pascal (Pa) = one Newton/meter2.

A-17

MMPDS 31 January 2003

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A-18

MMPDS-01 31 January 2003

APPENDIX B B.0 Alloy Index Alloy Name

Form

Specification

Section

250 250 280 280 354.0 355.0 356.0 356.0 356.0 359.0 2014 2014 2014 2014 2014 2014 2014 2014 2014 2014 2017 2017 2024 2024 2024 2024 2024 2024 2024 2024 2024 2024 2024 2024 2025 2026 2090 2124 2124 2219 2219 2219 2219 2219 2297

Bar Sheet and Plate Sheet and Plate Bar Casting Permanent Mold Casting Sand Casting Investment Casting Permanent Mold Casting Casting Bare Sheet and Plate Bare Sheet and Plate Bar and Rod, Rolled or Cold Finished Forging Extrusion Forging Extruded Bar, Rod and Shapes Rolled or Drawn Bar, Rod and Shapes Clad Sheet and Plate Forging Bar and Rod, Rolled or Cold-Finished Rolled Bar and Rod Bare Sheet and Plate Bare Sheet and Plate Tubing, Hydraulic, Seamless, Drawn Bar and Rod, Rolled or Cold-Finished Extrusion Extrusion Extrusion Extruded Bar, Rod and Shapes Rolled or Drawn Bar, Rod and Wire Bare Sheet and Plate Clad Sheet and Plate Tubing Die Forging Extruded Bars, Rods, and Profiles Sheet Plate Plate Sheet and Plate Hand Forging Extrusion Extrusion Sheet and Plate Plate

AMS 6512 AMS 6520 AMS 6521 AMS 6514 AMS-A-21180 AMS 4281 AMS 4217 AMS 4260 AMS 4284 AMS-A-21180 AMS 4028 AMS 4029 AMS 4121 AMS 4133 AMS 4153 AMS-A-22771 AMS-QQ-A-200/2 AMS-QQ-A-225/4 AMS-QQ-A-250/3 AMS-QQ-A-367 AMS 4118 AMS-QQ-A-225/5 AMS 4035 AMS 4037 AMS 4086 AMS 4120 AMS 4152 AMS 4164 AMS 4165 AMS-QQ-A-200/3 AMS-QQ-A-225/6 AMS-QQ-A-250/4 AMS-QQ-A-250/5 AMS-WW-T-700/3 AMS 4130 AMS 4338 AMS 4251 AMS 4101 AMS-QQ-A-250/29 AMS 4031 AMS 4144 AMS 4162 AMS 4163 AMS-QQ-A-250/30 AMS 4330

2.5.1 2.5.1 2.5.1 2.5.1 3.9.1 3.9.2 3.9.4 3.9.4 3.9.4 3.9.8 3.2.1 3.2.1 3.2.1 3.2.1 3.2.1 3.2.1 3.2.1 3.2.1 3.2.1 3.2.1 3.2.2 3.2.2 3.2.3 3.2.3 3.2.3 3.2.3 3.2.3 3.2.3 3.2.3 3.2.3 3.2.3 3.2.3 3.2.3 3.2.3 3.2.4 3.2.5 3.2.6 3.2.7 3.2.7 3.2.8 3.2.8 3.2.8 3.2.8 3.2.8 3.2.9

Key: Underline indicates inactive for new design.

B-1

MMPDS-01 31 January 2003 Alloy Name 2424 2424 2519 2524 2618 2618 2618 4130 4130 4130 4130 4130 4130 4130 4130 4130 4130 4130 4130 4130 4135 4135 4135 4135 4140 4140 4140 4140 4140 4140 4340 4340 4340 4340 4340 4340 4340 5052 5052 5052 5052 5083 5083 5083 5086 5086 5454 5454 5456 5456 6013 6013 6061 6061

Form Sheet (Clad) Sheet (Bare) Plate Sheet and Plate Die and Hand Forgings Die Forging Forging Bar and Forging Sheet, Strip and Plate Sheet, Strip and Plate Tubing Tubing Bar and Forging Tubing Tubing Tubing Bar and Forging Sheet, Strip and Plate Bar and Forging Tubing Sheet, Strip and Plate Tubing Tubing Tubing Bar and Forging Tubing Bar and Forging Sheet, Strip and Plate Bar and Forging Bar and Forging Sheet, Strip and Plate Bar and Forging Tubing Bar and Forging Tubing Sheet, Strip and Plate Bar and Forging Sheet and Plate Sheet and Plate Sheet and Plate Sheet and Plate Bare Sheet and Plate Extruded Bar, Rod and Shapes Bare Sheet and Plate Extruded Bar, Rod and Shapes Sheet and Plate Extruded Bar, Rod and Shapes Sheet and Plate Extruded Bar, Rod and Shapes Sheet and Plate Sheet (T4) Sheet (T6) Sheet and Plate Sheet and Plate

Key: Underline indicates inactive for new design.

B-2

Specification AMS 4270 AMS 4273 MIL-DTL-46192 AMS 4296 AMS 4132 AMS-A-22771 AMS-QQ-A-367 AMS 6348 AMS 6350 AMS 6351 AMS 6361 AMS 6362 AMS 6370 AMS 6371 AMS 6373 AMS 6374 AMS 6528 AMS-S-18729 AMS-S-6758 AMS-T-6736 AMS 6352 AMS 6365 AMS 6372 AMS-T-6735 AMS 6349 AMS 6381 AMS 6382 AMS 6395 AMS 6529 AMS-S-5626 AMS 6359 AMS 6414 AMS 6414 AMS 6415 AMS 6415 AMS 6454 AMS-S-5000 AMS 4015 AMS 4016 AMS 4017 AMS-QQ-A-250/8 AMS 4056 AMS-QQ-A-200/4 AMS-QQ-A-250/6 AMS-QQ-A-200/5 AMS-QQ-A-250/7 AMS-QQ-A-200/6 AMS-QQ-A-250/10 AMS-QQ-A-200/7 AMS-QQ-A-250/9 AMS 4347 AMS 4216 AMS 4025 AMS 4026

Section 3.2.10 3.2.10 3.2.11 3.2.12 3.2.13 3.2.13 3.2.13 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 3.5.1 3.5.1 3.5.1 3.5.1 3.5.2 3.5.2 3.5.2 3.5.3 3.5.3 3.5.4 3.5.4 3.5.5 3.5.5 3.6.1 3.6.1 3.6.2 3.6.2

MMPDS-01 31 January 2003 Alloy Name 6061 6061 6061 6061 6061 6061 6061 6061 6061 6061 6061 6061 6061 6061 6061 6061 6061 6061 6061 6151 6151 7010 7010 7040 7049 7049 7049 7049 7049 7050 7050 7050 7050 7050 7050 7050 7050 7050 7055 7055 7055 7055 7075 7075 7075 7075 7075 7075 7075 7075 7075 7075 7075 7075

Form Sheet and Plate Tubing Seamless, Drawn Tubing Seamless, Drawn Bar and Rod, Rolled or Cold Finished Bar and Rod, Cold Finished Bar and Rod, Rolled or Cold Finished Forging Extrusion Extrusion Extrusion Hand Forging Forging Extruded Rod, Bar Shapes and Tubing Rolled Bar, Rod and Shapes Extruded Rod, Bars and Shapes Extruded Rod, Bars and Shapes Sheet and Plate Forging Tubing Seamless, Drawn Die Forging Forging Plate Plate Plate Forging Forging Extrusion Forging Plate Bare Plate Die Forging Hand Forging Bare Plate Die Forging Extruded Shape Extruded Shape Extruded Shape Forging Plate Extrusion Extrusion Extrusion Bare Sheet and Plate Bare Sheet and Plate Clad Sheet and Plate Bare Plate Bar and Rod, Rolled or Cold Finished Bar and Rod, Rolled or Cold Finished Bar and Rod, Rolled or Cold Finished Forging Die Forging Forging Bar and Rod, Rolled or Cold Finished Bar and Rod, Rolled or Cold Finished

Key: Underline indicates inactive for new design.

B-3

Specification AMS 4027 AMS 4080 AMS 4082 AMS 4115 AMS 4116 AMS 4117 AMS 4127 AMS 4160 AMS 4161 AMS 4172 AMS 4248 AMS-A-22771 AMS-QQ-A-200/8 AMS-QQ-A-225/8 AMS 4150 AMS 4173 AMS-QQ-A-250/11 AMS-QQ-A-367 AMS-WW-T-700/6 AMS 4125 AMS-A-22771 AMS 4204 AMS 4205 AMS 4211 AMS-QQ-A-367 AMS 4111 AMS 4157 AMS-A-2271 AMS 4200 AMS 4050 AMS 4107 AMS 4108 AMS 4201 AMS 4333 AMS 4340 AMS 4341 AMS 4342 AMS-A-22771 AMS 4206 AMS 4337 AMS 4324 AMS 4336 AMS 4044 AMS 4045 AMS 4049 AMS 4078 AMS 4122 AMS 4123 AMS 4124 AMS 4126 AMS 4141 AMS 4147 AMS 4186 AMS 4187

Section 3.6.2 3.6.2 3.6.2 3.6.2 3.6.2 3.6.2 3.6.2 3.6.2 3.6.2 3.6.2 3.6.2 3.6.2 3.6.2 3.6.2 3.6.2 3.6.2 3.6.2 3.6.2 3.6.2 3.6.3 3.6.3 3.7.1 3.7.1 3.7.2 3.7.3 3.7.3 3.7.3 3.7.3 3.7.3 3.7.4 3.7.4 3.7.4 3.7.4 3.7.4 3.7.4 3.7.4 3.7.4 3.7.4 3.7.5 3.7.5 3.7.5 3.7.5 3.7.6 3.7.6 3.7.6 3.7.6 3.7.6 3.7.6 3.7.6 3.7.6 3.7.6 3.7.6 3.7.6 3.7.6

MMPDS-01 31 January 2003 Alloy Name 7075 7075 7075 7075 7075 7075 7149 7149 7149 7150 7150 7150 7150 7175 7175 7175 7175 7175 7249 7475 7475 7475 7475 7475 7475 7475 8630 8630 8630 8630 8630 8735 8735 8735 8740 8740 8740 8740 8740 15-5PH 15-5PH 15-5PH 17-4PH 17-4PH 17-4PH 17-4PH 17-4PH 17-7PH 2024-T3 ARAMID Fiber Reinforced 280 (300) 280 (300) 300M (0.42C) 300M (0.42C) 300M (0.42C)

Form Forging Extruded Bar, Rod and Shapes Rolled or Drawn Bar and Rod Bare Sheet and Plate Clad Sheet and Plate Forging Forging Forging Extrusion Bare Plate Bare Plate Extrusion Extrusion Die Forging Die and Hand Forging Hand Forging Extrusion Forging Hand Forging Bare Sheet Bare Sheet Bare Plate Bare Plate Clad Sheet Bare Plate Clad Sheet Bar and Forging Tubing Sheet, Strip and Plate Bar and Forging Sheet, Strip and Plate Tubing Bar and Forging Sheet, Strip and Plate Bar and Forging Tubing Bar and Forging Sheet, Strip and Plate Bar and Forging Investment Casting Bar, Forging, Ring and Extrusion (CEVM) Sheet, Strip and Plate (CEVM) Investment Casting (H1100) Investment Casting (H1000) Investment Casting (H900) Sheet, Strip and Plate Bar, Forging and Ring Plate, Sheet and Strip Sheet Laminate Bar Sheet and Plate Bar and Forging Tubing Bar and Forging

Key: Underline indicates inactive for new design.

B-4

Specification AMS-A-22771 AMS-QQ-A-200/11, 15 AMS-QQ-A-225/9 AMS-QQ-A-250/12, 24 AMS-QQ-A-250/13, 25 AMS-QQ-A-367 AMS 4320 AMS-A-2271 ASM 4343 AMS 4252 (T7751) AMS 4306 (T6151) AMS 4307 (T61511) AMS 4345 (T77511) AMS 4148 (T66) AMS 4149 (T74) AMS 4179 (T7452) AMS 4344 (T73511) AMS-A-22771 AMS 4334 AMS 4084 (T61) AMS 4085 (T761) AMS 4089 (T7651) AMS 4090 (T651) AMS 4100 (T761) AMS 4202 (T7351) AMS 4207 (T61) AMS 6280 AMS 6281 AMS-S-18728 AMS-S-6050 AMS 6350 AMS 6282 AMS 6320 AMS 6357 AMS 6322 AMS 6323 AMS 6327 AMS 6358 AMS-S-6049 AMS 5400 AMS 5659 AMS 5862 AMS 5342 AMS 5343 AMS 5344 AMS 5604 AMS 5643 AMS 5528 AMS 4254 AMS 6514 AMS 6521 AMS 6257 AMS 6257 AMS 6419

Section 3.7.6 3.7.6 3.7.6 3.7.6 3.7.6 3.7.6 3.7.3 3.7.3 3.7.3 3.7.7 3.7.7 3.7.7 3.7.7 3.7.8 3.7.8 3.7.8 3.7.8 3.7.8 3.7.9 3.7.10 3.7.10 3.7.10 3.7.10 3.7.10 3.7.10 3.7.10 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.6.7 2.6.7 2.6.7 2.6.9 2.6.9 2.6.9 2.6.9 2.6.9 2.6.10 7.5.1 2.5.1 2.5.1 2.3.1 2.3.1 2.3.1

MMPDS-01 31 January 2003 Alloy Name 300M (0.42C) 300M (0.4C) 300M (0.4C) 4130 - N 4330V 4330V 4330V 4330V 4335V 4335V 4335V 4335V 4335V 4335V 5Cr-Mo-V 5Cr-Mo-V 5Cr-Mo-V 7475-T761 ARAMID Fiber Reinforced 9Ni-4Co-0.20C 9Ni-4Co-0.20C 9Ni-4Co-0.20C A201.0 A-286 A-286 A-286 A-286 A-286 A356.0 A356.0 A357.0 AerMet 100 AerMet 100 AF1410 AISI 1025 AISI 1025 AISI 1025 AISI 1025 AISI 1025 - N AISI 1025 - N AISI 1025 - N AISI 301 AISI 301 AISI 301 AISI 301 AISI 301 AISI 302 AISI 302 AISI 302 AISI 302 AISI 302 AISI 304 AISI 304 AISI 304 AISI 304

Form Tubing Bar and Forging Tubing Tubing Bar and Forging Tubing Bar and Forging Tubing Bar and Forging Tubing Bar and Forging Tubing Sheet, Strip and Plate Sheet, Strip and Plate Sheet, Strip and Plate Bar and Forging (CEVM) Bar and Forging Sheet Laminate Sheet, Strip and Plate Sheet, Strip and Plate Bar and Forging, Tubing Casting (T7 Temper) Sheet, Strip and Plate Bar, Forging, Tubing and Ring Bar, Forging, Tubing and Ring Bar, Forging and Tubing Bar, Forging and Tubing Casting Casting Casting Bar and Forging Bar and Forging Bar and Forging Sheet, Strip, and Plate Bar Sheet and Strip Tubing Seamless Tubing Tubing Tubing Sheet and Strip Sheet and Strip Sheet and Strip Sheet, Strip and Plate Sheet and Strip (175 ksi) Sheet, Strip and Plate Sheet and Strip (125 ksi) Sheet and Strip (150 ksi) Sheet and Strip (175 ksi) Sheet and Strip (185 ksi) Sheet and Strip Sheet, Strip and Plate (125 ksi) Sheet and Strip (150 ksi) Sheet and Strip (175 ksi)

Key: Underline indicates inactive for new design.

B-5

Specification AMS 6419 AMS 6417 AMS 6417 AMS 6360 AMS 6411 AMS 6411 AMS 6427 AMS 6427 AMS 6429 AMS 6429 AMS 6430 AMS 6430 AMS 6433 AMS 6435 AMS 6437 AMS 6487 AMS 6488 AMS 4302 AMS 6523 AMS 6524 AMS 6526 AMS-A-21180 AMS 5525 AMS 5731 AMS 5732 AMS 5734 AMS 5737 AMS 4218 AMS-A-21180 AMS-A-21180 AMS 6478 AMS 6532 AMS 6527 AMS 5046 ASTM A 108 AMS-S-7952 AMS 5077 AMS 5075 AMS 5077 AMS-T-5066 AMS 5517 AMS 5518 AMS 5519 AMS 5901 AMS 5902 AMS 5516 AMS 5903 AMS 5904 AMS 5905 AMS 5906 AMS 5913 AMS 5910 AMS 5911 AMS 5912

Section 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.4.1 2.4.1 2.4.1 7.5.2 2.4.2 2.4.3 2.4.3 3.8.1 6.2.1 6.2.1 6.2.1 6.2.1 6.2.1 3.9.5 3.9.5 3.9.6 2.5.3 2.5.3 2.5.2 2.2.1 2.2.1 2.2.1 2.2.1 2.2.1 2.2.1 2.2.1 2.7.1 2.7.1 2.7.1 2.7.1 2.7.1 2.7.1 2.7.1 2.7.1 2.7.1 2.7.1 2.7.1 2.7.1 2.7.1 2.7.1

MMPDS-01 31 January 2003 Alloy Name AISI 304 AISI 316 AISI 316 AM100A AM100A AM-350 AM-355 AM-355 AM-355 AZ31B AZ31B AZ31B AZ31B AZ31B AZ61A AZ61A AZ91C/AZ91E AZ91C/AZ91E AZ91C/AZ91E AZ92A AZ92A AZ92A C355.0 Copper Beryllium Copper Beryllium Copper Beryllium Copper Beryllium Copper Beryllium Copper Beryllium Copper Beryllium Copper Beryllium CP Titanium CP Titanium CP Titanium CP Titanium CP Titanium CP Titanium CP Titanium Custom 450 Custom 450 Custom 455 Custom 455 Custom 465 D357.0 D6AC D6AC D6AC D6AC EZ33A Hastelloy X Hastelloy X Haynes®230® Haynes®230® Haynes HR 120

Form Sheet and Strip (185 ksi) Sheet and Strip Sheet, Strip and Plate (125 ksi) Investment Casting Permanent Mold Casting Sheet and Strip Sheet and Strip Plate Bar, Forging and Forging Stock Sheet and Plate Plate Sheet and Plate Forging Extrusion Extrusion Forging Sand Casting Sand Casting Investment Casting Sand Casting Permanent Mold Casting Investment Casting Casting Strip (TB00) Strip (TD02) Bar and Rod (TF00) Bar and Rod (TH04) Mechanical tubing (TF00) Bar, Rod, Shapes and Forging (TB00) Bar and Rod (TD04) Sheet (TB00, TD01, TD02, TD04) Sheet, Strip and Plate Sheet, Strip and Plate Sheet, Strip and Plate Bar Extruded Bars and Shapes Sheet, Strip and Plate Bar Bar, Forging, Tubing, Wire and Ring (air melted) Bar, Forging, Tubing, Wire and Ring (CEM) Tubing (welded) Bar and Forging Bars, Wires, and Forgings Sand Composite Casting Bar and Forging Tubing Bar and Forging Sheet, Strip and Plate Sand Casting Sheet and Plate Bar and Forging Plate, Sheet, and Strip Bar and Forging Sheet, Strip and Plate

Key: Underline indicates inactive for new design.

B-6

Specification AMS 5913 AMS 5524 AMS 5907 AMS 4455 AMS 4483 AMS 5548 AMS 5547 AMS 5549 AMS 5743 AMS 4375 AMS 4376 AMS 4377 ASTM B 91 ASTM B 107 AMS 4350 ASTM B 91 AMS 4437 AMS 4446 AMS 4452 AMS 4434 AMS 4484 AMS 4453 AMS-A-21180 AMS 4530 AMS 4532 AMS 4533 AMS 4534 AMS 4535 AMS 4650 AMS 4651 ASTM B 194 AMS 4900 AMS 4901 AMS 4902 AMS 4921 AMS-T-81556 AMS-T-9046 MIL-T-9047 AMS 5763 AMS 5773 AMS 5578 AMS 5617 AMS 5936 AMS 4241 AMS 6431 AMS 6431 AMS 6439 AMS 6439 AMS 4442 AMS 5536 AMS 5754 AMS 5878 AMS 5891 AMS 5916

Section 2.7.1 2.7.1 2.7.1 4.3.1 4.3.1 2.6.1 2.6.2 2.6.2 2.6.2 4.2.1 4.2.1 4.2.1 4.2.1 4.2.1 4.2.2 4.2.2 4.3.2 4.3.2 4.3.2 4.3.3 4.3.3 4.3.3 3.9.3 7.3.2 7.3.2 7.3.2 7.3.2 7.3.2 7.3.2 7.3.2 7.3.2 5.2.1 5.2.1 5.2.1 5.2.1 5.2.1 5.2.1 5.2.1 2.6.3 2.6.3 2.6.4 2.6.4 2.6.5 3.9.7 2.3.1 2.3.1 2.3.1 2.3.1 4.3.4 6.3.1 6.3.1 6.3.9 6.3.9 6.3.10

MMPDS-01 31 January 2003 Alloy Name HS 188 HS 188 Hy-Tuf Hy-Tuf Inconel 718 Inconel 718 Inconel 718 Inconel 718 Inconel 718 Inconel 718 Inconel 718 Inconel 718 Inconel Alloy 600 Inconel Alloy 600 Inconel Alloy 600 Inconel Alloy 600 Inconel Alloy 625 Inconel Alloy 625 Inconel Alloy 706 Inconel Alloy 706 Inconel Alloy 706 Inconel Alloy 706 Inconel Alloy 706 Inconel Alloy X-750 Inconel Alloy X-750 L-605 L-605 Manganese Bronzes Manganese Bronzes MP159 Alloy MP159 Alloy MP35N Alloy MP35N Alloy N-155 N-155 N-155 N-155 PH13-8Mo PH15-7Mo QE22A Magnesium René 41 René 41 René 41 - STA Standard Grade Beryllium Standard Grade Beryllium Ti-10V-2Fe-3Al (Ti-10-2-3) Ti-10V-2Fe-3Al (Ti-10-2-3) Ti-10V-2Fe-3Al (Ti-10-2-3) Ti-13V-11Cr-3Al Ti-13V-11Cr-3Al Ti-15V-3Cr-3Sn-3Al (Ti-15-3-3-3) Ti-4.5Al-3V-2Fe-2Mo Ti-4.5Al-3V-2Fe-2Mo Ti-5Al-2.5Sn

Form Sheet and Plate Bar and Forging Bar and Forging Tubing Investment Casting Tubing; Creep Rupture Tubing; Short-Time Sheet, Strip and Plate; Creep Rupture Sheet, Strip and Plate; Short-Time Bar and Forging; Creep Rupture Bar and Forging; Creep Rupture Bar and Forging; Short-Time Plate, Sheet and Strip Tubing, Seamless Bar and Rod Forging Sheet, Strip and Plate Bar, Forging and Ring Sheet, Strip and Plate Sheet, Strip and Plate Bar, Forging and Ring Bar, Forging and Ring Bar, Forging and Ring Sheet, Strip and Plate; Annealed Bar and Forging; Equalized Sheet Bar and Forging Casting Casting Bar (solution treated and cold drawn) Bar (solution treated, cold drawn and aged) Bar (solution treated and cold drawn) Bar (solution treated, cold drawn and aged) Sheet Tubing (welded) Bar and Forging Bar and Forging Bar, Forging Ring and Extrusion (VIM+CEVM) Plate, Sheet and Strip Sand Casting Plate, Sheet and Strip Bar and Forging Bar and Forging Sheet and Plate Bar, Rod, Tubing and Machined Shapes Forging Forging Forging Sheet, Strip and Plate Bar Sheet and Strip Sheet Bars, Wires, forgings and Rings Sheet, Strip and Plate

Key: Underline indicates inactive for new design.

B-7

Specification AMS 5608 AMS 5772 AMS 6425 AMS 6425 AMS 5383 AMS 5589 AMS 5590 AMS 5596 AMS 5597 AMS 5662 AMS 5663 AMS 5664 AMS 5540 AMS 5580 ASTM B 166 ASTM B 564 AMS 5599 AMS 5666 AMS 5605 AMS 5606 AMS 5701 AMS 5702 AMS 5703 AMS 5542 AMS 5667 AMS 5537 AMS 5759 AMS 4860 AMS 4862 AMS 5842 AMS 5843 AMS 5844 AMS 5845 AMS 5532 AMS 5585 AMS 5768 AMS 5769 AMS 5629 AMS 5520 AMS 4418 AMS 5545 AMS 5713 AMS 5712 AMS 7902 AMS 7906 AMS 4983 AMS 4984 AMS 4986 AMS-T-9046 MIL-T-9047 AMS 4914 AMS 4899 AMS 4964 AMS 4910

Section 6.4.2 6.4.2 2.3.1 2.3.1 6.3.5 6.3.5 6.3.5 6.3.5 6.3.5 6.3.5 6.3.5 6.3.5 6.3.2 6.3.2 6.3.2 6.3.2 6.3.3 6.3.3 6.3.4 6.3.4 6.3.4 6.3.4 6.3.4 6.3.6 6.3.6 6.4.1 6.4.1 7.3.1 7.3.1 7.4.2 7.4.2 7.4.1 7.4.1 6.2.2 6.2.2 6.2.2 6.2.2 2.6.5 2.6.7 4.3.5 6.3.7 6.3.7 6.3.7 7.2.1 7.2.1 5.5.3 5.5.3 5.5.3 5.5.1 5.5.1 5.5.2 5.4.3 5.4.3 5.3.1

MMPDS-01 31 January 2003 Alloy Name Ti-5Al-2.5Sn Ti-5Al-2.5Sn Ti-5Al-2.5Sn Ti-5Al-2.5Sn Ti-5Al-2.5Sn Ti-6Al-2Sn-4Zr-2Mo Ti-6Al-2Sn-4Zr-2Mo Ti-6Al-2Sn-4Zr-2Mo Ti-6Al-2Sn-4Zr-2Mo Ti-6Al-4V Ti-6Al-4V Ti-6Al-4V Ti-6Al-4V Ti-6Al-4V Ti-6Al-4V Ti-6Al-4V Ti-6Al-4V Ti-6Al-4V Ti-6Al-4V Ti6Al-6V-2Sn Ti6Al-6V-2Sn Ti6Al-6V-2Sn Ti6Al-6V-2Sn Ti6Al-6V-2Sn Ti6Al-6V-2Sn Ti-8Al-1Mo-1V Ti-8Al-1Mo-1V Ti-8Al-1Mo-1V Ti-8Al-1Mo-1V Ti-8Al-1Mo-1V Waspaloy Waspaloy Waspaloy Waspaloy Waspaloy Waspaloy ZE41A Magnesium ZK60A-F ZK60A-T5 ZK60A-T5

Form Bar Forging Extruded Bar and Shapes Sheet, Strip and Plate Bar Sheet, Strip and Plate Bar Forging Sheet and Strip Sheet, Strip and Plate Die Forging Bar and Die Forging Extrusion Extrusion Casting Bar Sheet, Strip and Plate Bar Bar Sheet, Strip and Plate Bar and Forging Bar and Forging Bar and Forging Extruded Bar and Shapes Sheet, Strip and Plate Sheet, Strip and Plate Sheet, Strip and Plate Forging Sheet, Strip and Plate Bar Plate, Sheet and Strip Forging Bar, Forgings and Ring Bar, Forgings and Ring Bar, Forgings and Ring Bar, Forgings and Ring Sand Casting Extrusion Extrusion Die and Hand Forging

Key: Underline indicates inactive for new design.

B-8

Specification AMS 4926 AMS 4966 AMS-T-81556 AMS-T-9046 MIL-T-9047 AMS 4919 AMS 4975 AMS 4976 AMS-T-9046 AMS 4911 AMS 4920 AMS 4928 AMS 4934 AMS 4935 AMS 4962 AMS 4967 AMS-T-9046 AMS 4965 MIL-T-9047 AMS 4918 AMS 4971 AMS 4978 AMS 4979 AMS-T-81556 AMS-T-9046 AMS 4915 AMS 4916 AMS 4973 AMS-T-9046 MIL-T-9047 AMS 5544 AMS 5704 AMS 5706 AMS 5707 AMS 5708 AMS 5709 AMS 4439 ASTM B 107 AMS 4352 AMS 4362

Section 5.3.1 5.3.1 5.3.1 5.3.1 5.3.1 5.3.3 5.3.3 5.3.3 5.3.3 5.4.1 5.4.1 5.4.1 5.4.1 5.4.1 5.4.1 5.4.1 5.4.1 5.4.1 5.4.1 5.4.2 5.4.2 5.4.2 5.4.2 5.4.2 5.4.2 5.3.2 5.3.2 5.3.2 5.3.2 5.3.2 6.3.8 6.3.8 6.3.8 6.3.8 6.3.8 6.3.8 4.3.6 4.2.3 4.2.3 4.2.3

MMPDS-01 31 January 2003

APPENDIX C

C.0 Specification Index Specification

Alloy Name

Form/Application

Section

AMS 4015 AMS 4016 AMS 4017 AMS 4025 AMS 4026 AMS 4027 AMS 4028 AMS 4029 AMS 4031 AMS 4035 AMS 4037 AMS 4044 AMS 4045 AMS 4049 AMS 4050 AMS 4056 AMS 4078 AMS 4080 AMS 4082 AMS 4084 (T61) AMS 4085 (T761) AMS 4086 AMS 4089 (T7651) AMS 4090 (T651) AMS 4100 (T761) AMS 4101 AMS 4107 AMS 4108 AMS 4111 AMS 4115 AMS 4116 AMS 4117 AMS 4118 AMS 4120 AMS 4121 AMS 4122 AMS 4123 AMS 4124 AMS 4125 AMS 4126 AMS 4127 AMS 4130 AMS 4132 AMS 4133 AMS 4141

5052 5052 5052 6061 6061 6061 2014 2014 2219 2024 2024 7075 7075 7075 7050 5083 7075 6061 6061 7475 7475 2024 7475 7475 7475 2124 7050 7050 7049 6061 6061 6061 2017 2024 2014 7075 7075 7075 6151 7075 6061 2025 2618 2014 7075

Sheet and Plate Sheet and Plate Sheet and Plate Sheet and Plate Sheet and Plate Sheet and Plate Bare Sheet and Plate Bare Sheet and Plate Sheet and Plate Bare Sheet and Plate Bare Sheet and Plate Bare Sheet and Plate Bare Sheet and Plate Clad Sheet and Plate Bare Plate Bare Sheet and Plate Bare Plate Tubing Seamless, Drawn Tubing Seamless, Drawn Bare Sheet Bare Sheet Tubing, Hydraulic, Seamless, Drawn Bare Plate Bare Plate Clad Sheet Plate Die Forging Hand Forging Forging Bar and Rod, Rolled or Cold Finished Bar and Rod, Cold Finished Bar and Rod, Rolled or Cold Finished Bar and Rod, Rolled or Cold-Finished Bar and Rod, Rolled or Cold-Finished Bar and Rod, Rolled or Cold Finished Bar and Rod, Rolled or Cold Finished Bar and Rod, Rolled or Cold Finished Bar and Rod, Rolled or Cold Finished Die Forging Forging Forging Die Forging Die and Hand Forgings Forging Die Forging

3.5.1 3.5.1 3.5.1 3.6.2 3.6.2 3.6.2 3.2.1 3.2.1 3.2.8 3.2.3 3.2.3 3.7.6 3.7.6 3.7.6 3.7.4 3.5.2 3.7.6 3.6.2 3.6.2 3.7.10 3.7.10 3.2.3 3.7.10 3.7.10 3.7.10 3.2.7 3.7.4 3.7.4 3.7.3 3.6.2 3.6.2 3.6.2 3.2.2 3.2.3 3.2.1 3.7.6 3.7.6 3.7.6 3.6.3 3.7.6 3.6.2 3.2.4 3.2.13 3.2.1 3.7.6

Key: Underline indicates inactive for new design.

C-1

MMPDS-01 31 January 2003 Specification AMS 4144 AMS 4147 AMS 4148 (T66) AMS 4149 (T74) AMS 4150 AMS 4152 AMS 4153 AMS 4157 AMS 4160 AMS 4161 AMS 4162 AMS 4163 AMS 4164 AMS 4165 AMS 4172 AMS 4173 AMS 4179 (T7452) AMS 4186 AMS 4187 AMS 4200 AMS 4201 AMS 4202 (T7351) AMS 4204 AMS 4205 AMS 4206 AMS 4207 (T61) AMS 4211 AMS 4216 AMS 4217 AMS 4218 AMS 4241 AMS 4248 AMS 4251 AMS 4252 (T7751) AMS 4254 AMS 4260 AMS 4270 AMS 4273 AMS 4281 AMS 4284 AMS 4296 AMS 4302 AMS 4306 (T6151) AMS 4307 (T61511) AMS 4320 AMS 4324 AMS 4330 AMS 4333 AMS 4334 AMS 4336 AMS 4337 AMS 4338 AMS 4340 AMS 4341 AMS 4342

Alloy Name 2219 7075 7175 7175 6061 2024 2014 7049 6061 6061 2219 2219 2024 2024 6061 6061 7175 7075 7075 7049 7050 7475 7010 7010 7055 7475 7040 6013 (T4) 356.0 A356.0 D357.0 6061 2090 7150 2024-T3 ARAMID Fiber Reinforced 356.0 2424 (Clad) 2424 (Bare) 355.0 356.0 2524-T3 7475-T761 ARAMID Fiber Reinforced 7150 7150 7149 7055 2297 7050 7249 7055 7055 2026 7050 7050 7050

Key: Underline indicates inactive for new design.

Form/Application Hand Forging Forging Die Forging Die and Hand Forging Extruded Rod, Bars, and Shapes Extrusion Extrusion Extrusion Extrusion Extrusion Extrusion Extrusion Extrusion Extrusion Extrusion Extruded Rod, Bars, and Shapes Hand Forging Bar and Rod, Rolled or Cold Finished Bar and Rod, Rolled or Cold Finished Plate Bare Plate Bare Plate Plate Plate Plate Clad Sheet Plate Sheet Sand Casting Casting Sand Composite Casting Hand Forging Sheet Bare Plate Sheet Laminate Investment Casting Sheet Sheet Permanent Mold Casting Permanent Mold Casting Sheet and Plate Sheet Laminate

Section 3.2.8 3.7.6 3.7.8 3.7.8 3.6.2 3.2.3 3.2.1 3.7.3 3.6.2 3.6.2 3.2.8 3.2.8 3.2.3 3.2.3 3.6.2 3.6.2 3.7.8 3.7.6 3.7.6 3.7.3 3.7.4 3.7.10 3.7.1 3.7.1 3.7.5 3.7.10 3.7.2 3.6.1 3.9.4 3.9.5 3.9.7 3.6.2 3.2.6 3.7.7 7.5.1 3.9.4 3.2.10 3.2.10 3.9.2 3.9.4 3.2.12 7.5.2

Bare Plate Extrusion Forging Extrusion Plate Die Forging Hand Forging Extrusion Extrusion Bars, Rods, and Profiles Extruded Shape Extruded Shape Extruded Shape

3.7.7 3.7.7 3.7.3 3.7.5 3.2.9 3.7.4 3.7.9 3.7.5 3.7.5 3.2.5 3.7.4 3.7.4 3.7.4

C-2

MMPDS-01 31 January 2003 Specification AMS 4343 AMS 4344 (T73511) AMS 4345 (T77511) AMS 4347 AMS 4350 AMS 4352 AMS 4362 AMS 4375 AMS 4376 AMS 4377 AMS 4418 AMS 4434 AMS 4437 AMS 4439 AMS 4442 AMS 4446 AMS 4452 AMS 4453 AMS 4455 AMS 4483 AMS 4484 AMS 4530 AMS 4532 AMS 4533 AMS 4534 AMS 4535 AMS 4650 AMS 4651 AMS 4860 AMS 4862 AMS 4899 AMS 4900 AMS 4901 AMS 4902 AMS 4910 AMS 4911 AMS 4914 AMS 4915 AMS 4916 AMS 4918 AMS 4919 AMS 4920 AMS 4921 AMS 4926 AMS 4928 AMS 4934 AMS 4935 AMS 4962 AMS 4964 AMS 4965 AMS 4966 AMS 4967 AMS 4971 AMS 4973 AMS 4975 AMS 4976

Alloy Name 7149 7175 7150 6013 (T6) AZ61A ZK60A-T5 ZK60A-T5 AZ31B AZ31B AZ31B QE22A Magnesium AZ92A AZ91C/AZ91E ZE41A Magnesium EZ33A AZ91C/AZ91E AZ91C/AZ91E AZ92A AM100A AM100A AZ92A Copper Beryllium Copper Beryllium Copper Beryllium Copper Beryllium Copper Beryllium Copper Beryllium Copper Beryllium Manganese Bronzes Manganese Bronzes Ti-4.5Al-3V-2Fe-2Mo CP Titanium CP Titanium CP Titanium Ti-5Al-2.5Sn Ti-6Al-4V Ti-15V-3Cr-3Sn-3Al (Ti-15-3)-3-3 Ti-8Al-1Mo-1V Ti-8Al-1Mo-1V Ti6Al-6V-2Sn Ti-6Al-2Sn-4Zr-2Mo Ti-6Al-4V CP Titanium Ti-5Al-2.5Sn Ti-6Al-4V Ti-6Al-4V Ti-6Al-4V Ti-6Al-4V Ti-4.5Al-3V-2Fe-2Mo Tii-6Al-4V Ti-5Al-2.5Sn Ti-6Al-4V Ti6Al-6V-2Sn Ti-8Al-1Mo-1V Ti-6Al-2Sn-4Zr-2Mo Ti-6Al-2Sn-4Zr-2Mo

Key: Underline indicates inactive for new design.

Form/Application Extrusion Extrusion Extrusion Sheet Extrusion Extrusion Die and Hand Forging Sheet and Plate Plate Sheet and Plate Sand Casting Sand Casting Sand Casting Sand Casting Sand Casting Sand Casting Investment Casting Investment Casting Investment Casting Permanent Mold Casting Permanent Mold Casting Strip (TB00) Strip (TD02) Bar and Rod (TF00) Bar and Rod (TH04) Mechanical tubing (TF00) Bar, Rod, Shapes and Forging (TB00) Bar and Rod (TD04) Casting Casting Sheet Sheet, Strip and Plate Sheet, Strip and Plate Sheet, Strip and Plate Sheet, Strip and Plate Sheet, Strip and Plate Sheet and Strip Sheet, Strip and Plate Sheet, Strip and Plate Sheet, Strip and Plate Sheet, Strip and Plate Die Forging Bar Bar Bar and Die Forging Extrusion Extrusion Casting Bars, Wires, Forgings and Rings Bar Forging Bar Bar and Forging Forging Bar Forging

C-3

Section 3.7.3 3.7.8 3.7.7 3.6.1 4.2.2 4.2.3 4.2.3 4.2.1 4.2.1 4.2.1 4.3.5 4.3.3 4.3.2 4.3.6 4.3.4 4.3.2 4.3.2 4.3.3 4.3.1 4.3.1 4.3.3 7.3.2 7.3.2 7.3.2 7.3.2 7.3.2 7.3.2 7.3.2 7.3.1 7.3.1 5.4.3 5.2.1 5.2.1 5.2.1 5.3.1 5.4.1 5.5.2 5.3.2 5.3.2 5.4.2 5.3.3 5.4.1 5.2.1 5.3.1 5.4.1 5.4.1 5.4.1 5.4.1 5.4.3 5.4.1 5.3.1 5.4.1 5.4.2 5.3.2 5.3.3 5.3.3

MMPDS-01 31 January 2003 Specification AMS 4978 AMS 4979 AMS 4983 AMS 4984 AMS 4986 AMS 5046 AMS 5075 AMS 5077 AMS 5342 AMS 5343 AMS 5344 AMS 5383 AMS 5400 AMS 5513 AMS 5516 AMS 5517 AMS 5518 AMS 5519 AMS 5520 AMS 5524 AMS 5525 AMS 5528 AMS 5532 AMS 5536 AMS 5537 AMS 5540 AMS 5542 AMS 5544 AMS 5545 AMS 5547 AMS 5548 AMS 5549 AMS 5578 AMS 5580 AMS 5585 AMS 5589 AMS 5590 AMS 5596 AMS 5597 AMS 5599 AMS 5604 AMS 5605 AMS 5606 AMS 5608 AMS 5617 AMS 5629 AMS 5643 AMS 5659 AMS 5662 AMS 5663 AMS 5664 AMS 5666 AMS 5667 AMS 5701 AMS 5702 AMS 5703

Alloy Name Ti6Al-6V-2Sn Ti6Al-6V-2Sn Ti-10V-2Fe-3Al (Ti-10-2-3) Ti-10V-2Fe-3Al (Ti-10-2-3) Ti-10V-2Fe-3Al (Ti-10-2-3) AISI 1025 AISI 1025 - N AISI 1025 - N 17-4PH 17-4PH 17-4PH Inconel 718 15-5PH AISI 301 AISI 302 AISI 301 AISI 301 AISI 301 PH15-7Mo AISI 316 A-286 17-7PH N-155 Hastelloy X L-605 Inconel Alloy 600 Inconel Alloy X-750 Waspaloy René 41 AM-355 AM-350 AM-355 Custom 455 Inconel Alloy 600 N-155 Inconel 718 Inconel 718 Inconel 718 Inconel 718 Inconel Alloy 625 17-4PH Inconel Alloy 706 Inconel Alloy 706 HS 188 Custom 455 PH13-8Mo 17-4PH 15-5PH Inconel 718 Inconel 718 Inconel 718 Inconel Alloy 625 Inconel Alloy X-750 Inconel Alloy 706 Inconel Alloy 706 Inconel Alloy 706

Key: Underline indicates inactive for new design.

Form/Application Bar and Forging Bar and Forging Forging Forging Forging Sheet, Strip, and Plate Seamless Tubing Tubing Investment Casting (H1100) Investment Casting (H1000) Investment Casting (H900) Investment Casting Investment Casting Sheet, Strip and Plate Sheet, Strip and Plate Sheet and Strip (125 ksi) Sheet and Strip (150 ksi) Sheet and Strip (185 ksi) Plate, Sheet and Strip Sheet, Strip and Plate Sheet, Strip and Plate Plate, Sheet and Strip Sheet Sheet and Plate Sheet Plate, Sheet and Strip Sheet, Strip and Plate; Annealed Plate, Sheet and Strip Plate, Sheet and Strip Sheet and Strip Sheet and Strip Plate Tubing (welded) Tubing, Seamless Tubing (welded) Tubing; Creep Rupture Tubing; Short-Time Sheet, Strip and Plate; Creep Rupture Sheet, Strip and Plate; Short-Time Sheet, Strip and Plate Sheet, Strip and Plate Sheet, Strip and Plate Sheet, Strip and Plate Sheet and Plate Bar and Forging Bar, Forging Ring and Extrusion (VIM+CEVM) Bar, Forging and Ring Bar, Forging, Ring and Extrusion (CEVM) Bar and Forging; Creep Rupture Bar and Forging; Creep Rupture Bar and Forging; Short-Time Bar, Forging and Ring Bar and Forging; Equalized Bar, Forging and Ring Bar, Forging and Ring Bar, Forging and Ring

C-4

Section 5.4.2 5.4.2 5.5.3 5.5.3 5.5.3 2.2.1 2.2.1 2.2.1 2.6.9 2.6.9 2.6.9 6.3.5 2.6.7 2.7.1 2.7.1 2.7.1 2.7.1 2.7.1 2.6.8 2.7.1 6.2.1 2.6.10 6.2.2 6.3.1 6.4.1 6.3.2 6.3.6 6.3.8 6.3.7 2.6.2 2.6.1 2.6.2 2.6.4 6.3.2 6.2.2 6.3.5 6.3.5 6.3.5 6.3.5 6.3.3 2.6.9 6.3.4 6.3.4 6.4.2 2.6.4 2.6.6 2.6.9 2.6.7 6.3.5 6.3.5 6.3.5 6.3.3 6.3.6 6.3.4 6.3.4 6.3.4

MMPDS-01 31 January 2003 Specification AMS 5704 AMS 5706 AMS 5707 AMS 5708 AMS 5709 AMS 5712 AMS 5713 AMS 5731 AMS 5732 AMS 5734 AMS 5737 AMS 5743 AMS 5754 AMS 5759 AMS 5763 AMS 5768 AMS 5769 AMS 5772 AMS 5773 AMS 5842 AMS 5843 AMS 5844 AMS 5845 AMS 5862 AMS 5878 AMS 5891 AMS 5901 AMS 5902 AMS 5903 AMS 5904 AMS 5905 AMS 5906 AMS 5907 AMS 5910 AMS 5911 AMS 5912 AMS 5913 AMS 5916 AMS 5936 AMS 6257 AMS 6257 AMS 6280 AMS 6281 AMS 6282 AMS 6320 AMS 6322 AMS 6323 AMS 6327 AMS 6348 AMS 6349 AMS 6350 AMS 6350 AMS 6351 AMS 6352 AMS 6355 AMS 6357

Alloy Name Waspaloy Waspaloy Waspaloy Waspaloy Waspaloy René 41 - STA René 41 A-286 A-286 A-286 A-286 AM-355 Hastelloy X L-605 Custom 450 N-155 N-155 HS 188 Custom 450 MP159 Alloy MP159 Alloy MP35N Alloy MP35N Alloy 15-5PH Haynes®230® Haynes®230® AISI 301 AISI 301 AISI 302 AISI 302 AISI 302 AISI 302 AISI 316 AISI 304 AISI 304 AISI 304 AISI 304 Haynes HR-120 Cutsom 465 300M (0.42C) 300M (0.42C) 8630 8630 8735 8735 8740 8740 8740 4130 4140 4130 8630 4130 4135 8630 8735

Key: Underline indicates inactive for new design.

Form/Application Forging Bar, Forgings and Ring Bar, Forgings and Ring Bar, Forgings and Ring Bar, Forgings and Ring Bar and Forging Bar and Forging Bar, Forging, Tubing and Ring Bar, Forging, Tubing and Ring Bar, Forging and Tubing Bar, Forging and Tubing Bar, Forging and Forging Stock Bar and Forging Bar and Forging Bar, Forging, Tubing, Wire and Ring (air melted) Bar and Forging Bar and Forging Bar and Forging Bar, Forging, Tubing, Wire and Ring (CEM) Bar (solution treated and cold drawn) Bar (solution treated, cold drawn and aged) Bar (solution treated and cold drawn) Bar (solution treated, cold drawn and aged) Sheet, Strip and Plate (CEVM) Plate, Sheet and Strip Bar and Forging Plate, Sheet and Strip Sheet and Strip (175 ksi) Sheet and Strip (125 ksi) Sheet and Strip (150 ksi) Sheet and Strip (175 ksi) Sheet and Strip (185 ksi) Sheet, Strip and Plate (125 ksi) Sheet, Strip and Plate (125 ksi) Sheet and Strip (150 ksi) Sheet and Strip (175 ksi) Sheet and Strip (185 ksi) Sheet, Strip and Plate Bar, Wires and Forgings Bar and Forging Tubing Bar and Forging Tubing Tubing Bar and Forging Bar and Forging Tubing Bar and Forging Bar and Forging Bar and Forging Sheet, Strip and Plate Sheet, Strip and Plate Sheet, Strip and Plate Sheet, Strip and Plate Tubing Sheet, Strip and Plate

C-5

Section 6.3.8 6.3.8 6.3.8 6.3.8 6.3.8 6.3.7 6.3.7 6.2.1 6.2.1 6.2.1 6.2.1 2.6.2 6.3.1 6.4.1 2.6.3 6.2.2 6.2.2 6.4.2 2.6.3 7.4.2 7.4.2 7.4.1 7.4.1 2.6.7 6.3.9 6.3.9 2.7.1 2.7.1 2.7.1 2.7.1 2.7.1 2.7.1 2.7.1 2.7.1 2.7.1 2.7.1 2.7.1 6.3.10 2.6.5 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1

MMPDS-01 31 January 2003 Specification AMS 6358 AMS 6359 AMS 6360 AMS 6361 AMS 6362 AMS 6365 AMS 6370 AMS 6371 AMS 6372 AMS 6373 AMS 6374 AMS 6381 AMS 6382 AMS 6395 AMS 6411 AMS 6411 AMS 6414 AMS 6414 AMS 6415 AMS 6415 AMS 6417 AMS 6417 AMS 6419 AMS 6419 AMS 6425 AMS 6425 AMS 6427 AMS 6427 AMS 6429 AMS 6429 AMS 6430 AMS 6430 AMS 6431 AMS 6431 AMS 6433 AMS 6435 AMS 6437 AMS 6439 AMS 6439 AMS 6454 AMS 6478 AMS 6487 AMS 6488 AMS 6512 AMS 6514 AMS 6520 AMS 6521 AMS 6523 AMS 6524 AMS 6526 AMS 6527 AMS 6528 AMS 6529 AMS 6532 AMS 7902 AMS 7906

Alloy Name 8740 4340 4130 4130 4130 4135 4130 4130 4135 4130 4130 4140 4140 4140 4330V 4330V 4340 4340 4340 4340 300M (0.4C) 300M (0.4C) 300M (0.42C) 300M (0.42C) Hy-Tuf Hy-Tuf 4330V 4330V 4335V 4335V 4335V 4335V D6AC D6AC 4335V 4335V 5Cr-Mo-V D6AC D6AC 4340 AerMet 100 5Cr-Mo-V 5Cr-Mo-V 250 280 (300) 250 280 (300) 9Ni-4Co-0.20C 9Ni-4Co-0.20C 9Ni-4Co-0.20C AF1410 4130 4140 AerMet 100 Standard Grade Beryllium Standard Grade Beryllium

Key: Underline indicates inactive for new design.

Form/Application Sheet, Strip and Plate Sheet, Strip and Plate Tubing (normalized) Tubing Tubing Tubing Bar and Forging Tubing Tubing Tubing Tubing Tubing Bar and Forging Sheet, Strip and Plate Bar and Forging Tubing Bar and Forging Tubing Bar and Forging Tubing Bar and Forging Tubing Bar and Forging Tubing Bar and Forging Tubing Bar and Forging Tubing Bar and Forging Tubing Bar and Forging Tubing Bar and Forging Tubing Sheet, Strip and Plate Sheet, Strip and Plate Sheet, Strip and Plate Sheet, Strip and Plate Bar and Forging Sheet, Strip and Plate Bar and Forging Bar and Forging (CEVM) Bar and Forging Bar Bar Sheet and Plate Sheet and Plate Sheet, Strip and Plate Sheet, Strip and Plate Bar and Forging, Tubing Bar and Forging Bar and Forging Bar and Forging Bar and Forging Sheet and Plate Bar, Rod, Tubing and Machined Shapes

C-6

Section 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.4.1 2.3.1 2.3.1 2.3.1 2.5.3 2.4.1 2.4.1 2.5.1 2.5.1 2.5.1 2.5.1 2.4.2 2.4.3 2.4.3 2.5.2 2.3.1 2.3.1 2.5.3 7.2.1 7.2.1

MMPDS-01 31 January 2003 Specification AMS-A-21180 AMS-A-21180 AMS-A-21180 AMS-A-21180 AMS-A-21180 AMS-A-21180 AMS-A-22771 AMS-A-22771 AMS-A-22771 AMS-A-22771 AMS-A-22771 AMS-A-22771 AMS-A-22771 AMS-A-22771 AMS-QQ-A-367 AMS-QQ-A-367 AMS-QQ-A-367 AMS-QQ-A-367 AMS-QQ-A-367 AMS-QQ-A-200/2 AMS-QQ-A-200/3 AMS-QQ-A-200/4 AMS-QQ-A-200/5 AMS-QQ-A-200/6 AMS-QQ-A-200/7 AMS-QQ-A-200/8 AMS-QQ-A-200/11, 15 AMS-QQ-A-225/4 AMS-QQ-A-225/5 AMS-QQ-A-225/6 AMS-QQ-A-225/8 AMS-QQ-A-225/9 AMS-QQ-A-250/3 AMS-QQ-A-250/4 AMS-QQ-A-250/5 AMS-QQ-A-250/6 AMS-QQ-A-250/7 AMS-QQ-A-250/8 AMS-QQ-A-250/9 AMS-QQ-A-250/10 AMS-QQ-A-250/11 AMS-QQ-A-250/12, 24 AMS-QQ-A-250/13, 25 AMS-QQ-A-250/29 AMS-QQ-A-250/30 AMS-QQ-A-367 AMS-S-5000 AMS-S-5626 AMS-S-6049 AMS-S-6050 AMS-S-6758 AMS-S-7952 AMS-S-18728 AMS-S-18729 AMS-T-5066 AMS-T-6735

Alloy Name A201.0 354.0 C355.0 A356.0 A357.0 359.0 2014 2618 6061 6151 7049/7149 7050 7075 7175 2014 2618 6061 7049/7149 7075 2014 2024 5083 5086 5454 5456 6061 7075 2014 2017 2024 6061 7075 2014 2024 2024 5083 5086 5052 5456 5454 6061 7075 7075 2124 2219 7049 4340 4140 8740 8630 4130 AISI 1025 8630 4130 AISI 1025 - N 4135

Key: Underline indicates inactive for new design.

Form/Application Casting (T7 Temper) Casting Casting Casting Casting Casting Forging Die Forging Forging Forging Forging Forging Forging Forging Forging Forging Forging Forging Forging Extruded Bar, Rod and Shapes Extruded Bar, Rod and Shapes Extruded Bar, Rod and Shapes Extruded Bar, Rod and Shapes Extruded Bar, Rod and Shapes Extruded Bar, Rod and Shapes Extruded Rod, Bar Shapes and Tubing Extruded Bar, Rod and Shapes Rolled or Drawn Bar, Rod and Shapes Rolled Bar and Rod Rolled or Drawn Bar, Rod and Wire Rolled Bar, Rod and Shapes Rolled or Drawn Bar and Rod Clad Sheet and Plate Bare Sheet and Plate Clad Sheet and Plate Bare Sheet and Plate Sheet and Plate Sheet and Plate Sheet and Plate Sheet and Plate Sheet and Plate Bare Sheet and Plate Clad Sheet and Plate Plate Sheet and Plate Forging Bar and Forging Bar and Forging Bar and Forging Bar and Forging Bar and Forging Sheet and Strip Sheet, Strip and Plate Sheet, Strip and Plate Tubing Tubing

C-7

Section 3.8.1 3.9.1 3.9.3 3.9.5 3.9.6 3.9.8 3.2.1 3.2.13 3.6.2 3.6.3 3.7.3 3.7.4 3.7.6 3.7.8 3.2.1 3.2.13 3.6.2 3.7.3 3.7.6 3.2.1 3.2.3 3.5.2 3.5.3 3.5.4 3.5.5 3.6.2 3.7.6 3.2.1 3.2.2 3.2.3 3.6.2 3.7.6 3.2.1 3.2.3 3.2.3 3.5.2 3.5.3 3.5.1 3.5.5 3.5.4 3.6.2 3.7.6 3.7.6 3.2.7 3.2.8 3.7.3 2.3.1 2.3.1 2.3.1 2.3.1 2.3.1 2.2.1 2.3.1 2.3.1 2.2.1 2.3.1

MMPDS-01 31 January 2003 Specification AMS-T-6736 AMS-T-81556 AMS-T-81556 AMS-T-81556 AMS-T-9046 AMS-T-9046 AMS-T-9046 AMS-T-9046 AMS-T-9046 AMS-T-9046 AMS-T-9046 AMS-WW-T-700/3 AMS-WW-T-700/6 ASTM A 108 ASTM B 91 ASTM B 91 ASTM B 107 ASTM B 107 ASTM B 166 ASTM B 194 ASTM B 564 MIL-DTL-46192 MIL-T-9047 MIL-T-9047 MIL-T-9047 MIL-T-9047 MIL-T-9047

Alloy Name 4130 CP Titanium Ti-5Al-2.5Sn Ti6Al-6V-2Sn CP Titanium Ti-5Al-2.5Sn Ti-8Al-1Mo-1V Ti-6Al-2Sn-4Zr-2Mo Ti-6Al-4V Ti6Al-6V-2Sn Ti-13V-11Cr-3Al 2024 6061 AISI 1025 AZ31B AZ61A ZK60A-F AZ31B Inconel Alloy 600 Copper Beryllium Inconel Alloy 600 2519 CP Titanium Ti-5Al-2.5Sn Ti-8Al-1Mo-1V Ti-6Al-4V Ti-13V-11Cr-3Al

Key: Underline indicates inactive for new design.

Form/Application Tubing Extruded Bars and Shapes Extruded Bar and Shapes Extruded Bar and Shapes Sheet, Strip and Plate Sheet, Strip and Plate Sheet, Strip and Plate Sheet and Strip Sheet, Strip and Plate Sheet, Strip and Plate Sheet, Strip and Plate Tubing Tubing Seamless, Drawn Bar Forging Forging Extrusion Extrusion Bar and Rod Sheet (TB00, TD01, TD02, TD04) Forging Plate Bar Bar Bar Bar Bar

C-8

Section 2.3.1 5.2.1 5.3.1 5.4.2 5.2.1 5.3.1 5.3.2 5.3.3 5.4.1 5.4.2 5.5.1 3.2.3 3.6.2 2.2.1 4.2.1 4.2.2 4.2.3 4.2.1 6.3.2 7.3.2 6.3.2 3.2.11 5.2.1 5.3.1 5.3.2 5.4.1 5.5.1

MMPDS-01 31 January 2003

APPENDIX D D.0 Subject Index A-Basis, 1-5, 9-9, 9-25 AMS Specifications, 9-11 Anderson-Darling Test k-Sample Test, 9-77 Normality, 9-82 Pearsonality, 9-85 Weibullness, 9-89 Applicability of Procedures, 9-5 Approval Procedures, 9-5 ASTM ASTM A 370, 9-13, 9-15 ASTM B 557, 9-13, 9-15 ASTM B 769, 1-12, 9-13, 9-15 ASTM B 831, 1-12, 9-13, 9-16 ASTM C 693, 9-12, 9-16, 9-184 ASTM C 714, 9-13, 9-16, 9-184 ASTM D 2766, 9-13, 9-16, 9-184 ASTM E 8, 1-8, 1-21, 9-12, 9-13, 9-15, 9-38 ASTM E 9, 1-11, 9-12, 9-15 ASTM E 21, 9-13 ASTM E 29, 9-10 ASTM E 83, 9-12, 9-31 ASTM E 111, 9-12, 9-31, 9-183 ASTM E 132, 9-13, 9-16, 9-183 ASTM E 139, 9-12, 9-22 ASTM E 143, 9-12, 9-183 ASTM E 228, 9-12, 9-16, 9-184 ASTM E 238, 1-12, 9-12, 9-15, 9-16 ASTM E 399, 1-21, 9-13, 9-18, 9-24, 9-133 ASTM E 466, 9-12, 9-17 ASTM E 561, 9-13 ASTM E 606, 9-12, 9-17, 9-33, 9-41, 9-45, 9-110 ASTM E 647, 9-12, 9-17 ASTM E 739, 9-40 ASTM G 34, 9-12 ASTM G 47, 9-13 B-Basis, 1-7, 9-9, 9-25 Beams, Properties of Aluminum, 3-518 Magnesium, 4-53 Steel, 2-237 Titanium, 5-144 Bearing Failure, 1-28 Bearing Properties, 1-12, 9-7 Bearing Test Procedures, 9-106, 9-109 Bearings, 8-172

Bending Failure, 1-28 Biaxial Properties, 1-17 Modulus of Elasticity, 1-18 Ultimate Stress, 1-19 Yield Stress, 1-18 Biaxial Stress-Strain Curves, 9-198 Brittle Fracture, 1-20 Analysis, 1-20 Cast, Definition of, 9-30 Clad Aluminum Alloy Plate, 9-107 Coefficient of Thermal Expansion, 9-16 Columns, 1-30 Aluminum, 3-519 Local Instability, 1-30 Magnesium, 4-53 Primary Instability, 1-30 Stable Sections, 1-30 Steel, 2-237 Test Results, 1-30 Yield Stress, 1-32 Combinability of Data, 9-77 Anderson-Darling k-Sample Test, 9-77 F-Test, 9-77, 9-79 t-Test, 9-77, 9-80 Compressive Failure, 1-26 Compressive Properties, 1-11, 9-7 Computational Procedures, 9-60 Derived Properties, 9-106, 9-109 Nonparametric, 9-103 Normal Distribution, 9-82 Pearson Distribution, 9-82, 9-100 Population Specification, 9-60 Unknown Distribution, 9-103 Weibull Distribution, 9-82, 9-102 Confidence, 9-9, A-6 Confidence Interval, A-6 Confidence Level, A-6 Confidence Limit, A-7 Creep/Stress Rupture, 1-13, 9-22, 9-234 Data Analysis, 9-137 Data Generation, 9-46, 9-135 Data Requirements, 9-35 Equations, 9-138, 9-140 Example Problems, 9-235 Presentation of Data, 9-235 Terminology, 9-135, 9-140 Data Basis, 9-8 D-1

MMPDS-01 31 January 2003 Data Format, 9-50 A- and B-basis, 9-52 Derived Properties, 9-51 Fasteners, 9-55 Stress-Strain Curves, 9-55 Other Property, 9-56 Data Generation, 9-24 Creep/Stress Rupture, 9-46 Fatigue, 9-40 Fatigue Crack Growth, 9-130 Fracture Toughness, 9-133 Fusion-Welded Joints, 9-48 Mechanically Fastened Joints, 9-142 Mechanical Properties, 9-24, 9-30 Stress-Strain, 9-184 Data Presentation Creep-Rupture, 9-234 Elevated Temperature Curves, 9-202 Fatigue, 9-212 Fatigue Crack Growth, 1-26, 9-228 Fracture Toughness, 9-230 Fusion-Welded Joints, 9-244 Mechanically Fastened Joints, 9-240 Room-Temperature Design Values, 9-179, 9-184 Typical (Full-Range) Stress-Strain, 9-194 Typical Stress-Strain, 9-184 Data Requirements, 9-24, 9-26, 9-29 Creep/Stress Rupture, 9-26, 9-35 Derived Properties, 9-26, 9-30 Directly Calculated, 9-9, 9-26 Elevated Temperature Properties, 9-26, 9-32 Experimental Design, 9-40 Fatigue, 9-27, 9-32, 9-40 Fatigue Crack Growth, 9-27, 9-35 Fracture Toughness, 9-35 Fusion-Welded Joints, 9-40 Mechanically Fastened Joints, 9-36 Mechanical Properties, 9-24, 9-25, 9-27 Modulus, 9-26, 9-31 New Materials, 9-7, 9-24 Physical Properties, 9-26, 9-27 Stress-Strain, 9-28, 9-31 Data Submission, 9-50 Definition of Terms, 9-30 Creep/Stress Rupture, 9-135 Fatigue, 9-110 Fracture Toughness, 9-133 Mechanically Fastened Joints, 9-142 Mechanical Properties, 9-14 Statistics, A-6 Degrees of Freedom, 9-81, A-8 Density, 9-16

Derived Properties, 9-30 Design Mechanical Properties, 9-60 By Regression, 9-63, 9-64 Determining Form of Distribution, 9-82 Determining Population, 9-60 Direct Computation, Non Parametric, 9-103 Pearson, 9-100 Weibull, 9- 102 Example Problems, 9-162, 9-175 Presentation, 9-179 Dimensionally Discrepant Castings, 9-11 Direct Computation of Allowables, 9-60, 9-94, 9-104, 9-162 Nonparametric Distribution, 9-103 Pearson Distribution, 9-100 Weibull Distribution, 9-102 Distribution, Form of, 9-82 Documentation Requirements, 9-5 Elastic Properties, 9-183 Element Properties Aluminum, 3-518 Magnesium, 4-53 Steel, 2-237 Titanium, 5-144 Elevated Temperature Curves, 1-13, 9-68, 9-202 Data Requirements, 9-32 Presentation, 9-203 Working Curves, 9-202 Environmental Effects, 1-21 Elongation, 1-8, 9-204 Examples of Computation Procedures Complex Exposure, 9-210 Creep/Stress Rupture, 9-235 Design Allowables, 9-162 Fatigue, 9-212, 9-219, 9-223 F-Test, 9-79 Linear Regression, 9-104 Strain-Departure Method, 9-185 t-Test, 9-80 F-Distribution Fractiles, 9-253, 9-254 F-Test, 9-79 Failure General, 1-28 Identification code, 9-57, 9-58 Instability, 1-29 Local, 1-30 Material, 1-28 Types, 1-28 Fasteners, 9-142 Data Format, 9-55 H-Type, 9-144 S-Type, 9- 144 D-2

MMPDS-01 31 January 2003 Fatigue, 9-8, 9-17, 9-110 Data Analysis, 9-114, 9-127 Data Generation, 9-40, 9-113, 9-223 Data Requirements, 9-17, 9-110, 9-223, 9-34 Example Problems, 9-212, 9-223 Life Models, 9-115, 9-125, 9-221, 9-226, 9-227 Load Control, 9-219 Outliers, 9-124, 9-221, 9-227 Presentation of Data, 1-15, 9-223 Properties, 1-14 Run-outs, 9-128, 9-222, 9-228 Strain Control, 9-223 Terminology, 9-40 Test Planning, 9-40 Time Dependent Effects, 9-130 Fatigue Crack Growth, 1-24, 9-17, 9-130, 9-228 Crack-Growth Analysis, 1-24 Data Analysis, 9-134 Data Generation, 9-133 Data Requirements, 9-35, 9-131 Presentation of Data, 1-26, 9-228 Forgings, Definition of Grain Directions in, 9-15 Fracture Toughness, 1-19, 9-18, 9-230 Analysis, 1-20, 9-133 Apparent Fracture Toughness, 1-23 Brittle Fracture, 1-20 Critical Plane-Strain, 1-21 Data Analysis, 9-133 Data Generation, 9-35 Data Requirements, 9-35 Definitions, 9-133 Environmental, 1-21 Middle Tension Panels, 1-23, 9-19, 9-35, 9-134 Plane Stress, 1-22, 9-18, 9-133 Plane Strain, 1-21, 9-18, 9-133 Presentation of Data, 9-230 Transitional Stress States, 1-22, 9-133 Full-Range Stress-Strain Curves, 9-194 Fusion-Welded Joints, 9-23, 9-40, 9-158 Data Analysis, 9-161 Data Generation, 9-48, 9-159, 9-160 Data Requirements, 9-40, 9-160 Presentation of Data, 9-244 Goodness-of-Fit Tests, 9-82 Anderson-Darling, 9-82 Normality, 9-82 Pearsonality, 9-85 Weibullness, 9-83 Grain Direction, Treatment of, 9-106 Grouped Data Analysis, 9-77 Heat Requirements, 9-7

Indirect Design Allowables, 9-7, 9-60, 9-106 Without Regression, 9-108 With Regression, 9-109 Instability, 1-29 Bending, 1-29 Combined Loadings, 1-29 Compression, 1-29 Local, 1-30 Torsion, 1-29 International System of Units, 1-3 k-Sample Anderson-Darling Test, 9-77 Larson-Miller Analysis, 9-138 Location of Test Specimens, 9-14 Lot Requirements, 9-7 Material Failures, 1-28 Bearing, 1-28 Bending, 1-28 Combined Stress, 1-28 Compression, 1-28 Shear, 1-28 Stress Concentrations, 1-28 Tension, 1-28 Material Specifications, 9-11 Maximum Likelihood Estimation, 9-129 Mean Stress/Strain Effects, Evaluation of, 9-117 Mechanical Properties, 9-60 Computation of Design Allowables, 9-60 Derived Properties, 9-30, 9-106, 9-109 Example Problems, 9-162, 9-175 Presentation, 9-179 Terminology for, 9-14 Test Matrix, 9-29 Mechanically Fastened Joints, 9-22, 9-142 Data Analysis, 9-144, 9-146, 9-148, 9-158 Data Requirements, 9-36 Definitions, 9-143 Presentation of Data, 9-240 Melt, Definition of, 9-30 Metallurgical Instability, 1-17 Modulus of Elasticity, 1-9, 9-16, 9-31, 9-183, 9-206 Modulus of Rigidity, 1-12 NASM-1312, 9-11, 9-12, 9-22, 9-23, 9-38, 9-144 Nomenclature, 1-3 Nonparametric Data Analysis, 9-103 Normal Curve Statistics, 9-256 Normality, Assessment of, 9-82 Outliers, Treatment of, 9-124, 9-221, 9-227 Pearson Method, 9-100 Anderson-Darling, 9-85 Backoff, 9-85 Probability Plot, 9-86 D-3

MMPDS-01 31 January 2003 Physical Properties, 9-16, 9-207 Poisson’s Ratio, 1-8, 9-16, 9-183 Presentation of Data, 9-162, 9-212 Creep/Stress Rupture, 9-234 Design Allowables, 9-179 Effect of Temperature Curves, 9-246 Fatigue, 9-212 Fatigue Crack Growth, 9-228 Fracture Toughness, 9-230 Fusion-Welded Joints, 9-244, 9-245 Mechanically Fastened Joints, 9-240 Physical Properties, 9-183 Stress-Strain, 9-184 Primary Test Direction, 9-15 Probability, A-12 Probability Plots Normal, 9-83 Pearson, 9-86 Weibull, 9-92 Proportional Limit Shear, 1-12 Stress, 9-201 Tension and Compression 9-201 Pulleys, 8-172 Ramberg-Osgood Method, 9-8, 9-188, 9-191 Ratioed Values, 1-7 Rank Values for A- and B-Basis, 9-267 Ratioing of Mechanical Properties, 9-106 Reduced Ratios By Regression, 9-109 Direct Computation, 9-106 Reduction in Area, 1-8, 1-11, 9-204 Reduction of Column Test Results, 1-31 Regression, 9-63, 9-64 Direct Computation, 9-104 Determining Design Allowables, 9-65 Determining Reduced Ratios, 9-106 Example Computations, 9-175 Least Squares, 9-67 Linear, 9-67 Tests for Adequacy of, 9-71 Tests for Equality, 9-74 Quadratic, 9-68 Rounding, 9-10 Runouts, Treatment of, 9-128 S-Basis, 1-7, 9-24, 9-59 Separately Cast Test Bars, 9-11 Shear Failure, 1-28 Shear Properties, 1-11, 9-7 Shear Test Procedures, 9-106, 9-109 Shear Yield Stress, 9-202 Significance, A-14 Skewness, 9-101

Specific Heat, 9-16 Specifying the Population, 9-60 Statistics Symbols, A-5 Terms/Definitions, A-6 Strain, 1-8 Rate, 1-8 Shear, 1-8 Strain Departure Method, 9-194 Stress, 1-8, 1-28 Stress-Strain Curves, 9-184 Biaxial, 9-198 Compression Tangent Modulus, 9-202 Data Requirements, 9-31, 9-55 Example Computation, 9-198 Full-Range, 9-194 Presentation, 9-184 Typical, 9-184 Stress Rupture, 1-13 Symbols and Definitions, 1-3 Creep/Stress Rupture, 9-136, A-7 Fatigue, 9-110, A-8 Fracture Toughness, 9-133 General, 1-3, A-5, A-6 Mechanically Fastened Joints, 9-143 Mechanical Properties, 9-14 Physical Properties, 9-16, 9-183, 9-184 Statistics, A-5, A-6 t-Distribution Fractiles, 9-255 t-Test, 9-80 Tangent Modulus Curves, 9-202 Temperature Effects, 1-13, 9-202 Tensile Properties, 1-9 Tensile Proportional Limit, 1-9 Tensile Ultimate Stress, 1-11 Tensile Yield Stress, 1-9 Terminology Creep Rupture, 9-135 Fatigue, 1-15, 9-110 Mechanical Property, 9-14 Test Specimens, 9-14 Duplication, 9-29 Location, 9-14, 9-107 Orientation, 9-14 Primary Test Direction, 9-15 Testing Procedures, 9-11 Bearing, 9-12 Creep/Stress Rupture, 9-12, 9-22 Elastic Properties, 9-12 Fatigue, 9-12, 9-17 Fatigue Crack Growth, 9-12, 9-17 Fusion-Welded Joints, 9-23 Fracture Toughness, 9-18 D-4

MMPDS-01 31 January 2003 Mechanically Fastened Joints, 9-22 Mechanical Properties, 9-15 Modulus, 9-16 Physical Properties, 9-16 Shear, 9-13 Stress-Strain, 9-28, 9-184 Testing Standards, 9-12, 9-15 Tests of Significance, 9-77 Definitions, A-6 F-Test, 9-79 t-Test, 9-80 Thermal Conductivity, 9-16 Thermal Exposure, 9-8, 9-208 Complex, 9-210 Simple, 9-209 Thin Walled Sections, 1-40 Tolerance Bounds, A-15 T90, 9-10 T99, 9-10 Tolerance Interval, A-15 Tolerance Level, A-15 Tolerance Limit Factors Normal, One-Sided, 9-248 Weibull, One-Sided, 9-257, 9-258 Torsion, Properties Aluminum, 3-521 Magnesium, 4-56 Steel, 2-240 Typical Basis, 9-8 Ultimate Bearing Stress, 1-12 Ultimate Compression Stress, 1-1 Ultimate Shear Stress, 1-12 Ultimate Tensile Stress, 1-11 Units, 9-16 Weibull Procedure, 9-102 Weibull Acceptability Test, 9-83, 9-89 Weibull Back-Off, 9-91 Weibull Distribution Estimating, 9-89 Weibullness, Assessment of, 9-215 Weibull Probability Plot, 9-92 Wire Rope, 8-172 Working Curves, Determination of, 9-202

Yield Stress Bearing, 1-12 Compression, 1-11 Shear, 1-12 Tensile, 1-9 Tensile Proportional Limit, 1-7

D-5

MMPDS-01 31 January 2003

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D-6

MMPDS-01 31 January 2003

APPENDIX E E.0 Figure Index Figure No.

Current Form

Figure No.

Current Form

1.4.4.1 1.4.8.2.1(a) 1.4.8.2.1(b) 1.4.9.3(a) 1.4.11.1 1.4.11.3 1.4.12.2 1.4.12.3 1.4.12.4 1.4.12.4.1 1.4.13.2(a) 1.4.13.2(b) 1.4.13.4 1.6.2.2 1.6.4.4(a) 1.6.4.4(b) 1.6.4.4(c) 1.6.4.4(d) 1.6.4.4(e) 1.6.4.4(f) 1.6.4.4(g) 1.6.4.4(h) 1.6.4.4(i) 2.2.1.0 2.3.0.2 2.3.1.0 2.3.1.1.1 2.3.1.1.2 2.3.1.1.3 2.3.1.1.4 2.3.1.2.6(a) 2.3.1.2.6(b) 2.3.1.2.6(c) 2.3.1.2.8(a) 2.3.1.2.8(b) 2.3.1.2.8(c) 2.3.1.2.8(d) 2.3.1.2.8(e) 2.3.1.2.8(f) 2.3.1.2.8(g) 2.3.1.2.8(h) 2.3.1.3.6(a) 2.3.1.3.6(b) 2.3.1.3.6(c)

Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic

2.3.1.3.6(d) 2.3.1.3.6(e) 2.3.1.3.6(f) 2.3.1.3.6(g) 2.3.1.3.8(a) 2.3.1.3.8(b) 2.3.1.3.8(c) 2.3.1.3.8(d) 2.3.1.3.8(e) 2.3.1.3.8(f) 2.3.1.3.8(g) 2.3.1.3.8(h) 2.3.1.3.8(i) 2.3.1.3.8(j) 2.3.1.3.8(k) 2.3.1.3.8(l) 2.3.1.3.8(m) 2.3.1.3.8(n) 2.3.1.3.8(o) 2.3.1.4.8(a) 2.3.1.4.8(b) 2.3.1.4.8(c) 2.3.1.4.8(d) 2.3.1.4.9 2.3.1.5.9 2.4.1.0 2.4.1.1.1(a) 2.4.1.1.1(b) 2.4.1.1.2(a) 2.4.1.1.2(b) 2.4.1.1.3(a) 2.4.1.1.3(b) 2.4.1.1.4 2.4.2.0 2.4.2.1.1 2.4.2.1.2 2.4.2.1.4 2.4.2.1.6(a) 2.4.2.1.6(b) 2.4.3.0 2.4.3.1.1 2.4.3.1.2

Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic

E-1

MMPDS-01 31 January 2003 Figure No.

Current Form

Figure No.

Current Form

2.4.3.1.3 2.4.3.1.4 2.4.3.1.6(a) 2.4.3.1.6(b) 2.4.3.1.6(c) 2.4.3.1.6(d) 2.4.3.1.8 2.5.0.2(a) 2.5.1.0 2.5.1.1.1 2.5.1.1.2 2.5.1.1.3 2.5.1.1.4 2.5.1.1.6(a) 2.5.1.1.6(b) 2.5.1.1.6(c) 2.5.1.1.6(d) 2.5.1.1.6(e) 2.5.2.1.6(a) 2.5.2.1.6(b) 2.5.3.1.6(a) 2.5.3.1.6(b) 2.5.3.1.6(c) 2.5.3.2.6(a) 2.5.3.2.6(b) 2.5.3.2.6(c) 2.6.1.0 2.6.1.1.1 2.6.1.1.2 2.6.1.1.3 2.6.1.1.4 2.6.1.1.6(a) 2.6.1.1.6(b) 2.6.2.0 2.6.2.1.1 2.6.2.1.2 2.6.2.1.3 2.6.2.1.4 2.6.3.0 2.6.3.1.1 2.6.3.1.2 2.6.3.1.5 2.6.3.1.6 2.6.3.1.8 2.6.3.2.1 2.6.3.2.2 2.6.3.2.5 2.6.3.2.6 2.6.3.2.8

Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Vector Graphic Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned

2.6.4.0 2.6.4.1.1 2.6.4.1.2 2.6.4.1.5 2.6.4.1.6 2.6.4.1.8(a) 2.6.4.1.8(b) 2.6.4.2.1 2.6.4.2.2 2.6.4.2.5 2.6.4.2.6 2.6.4.2.8 2.6.5.0(a) 2.6.5.1(a) 2.6.5.1(b) 2.6.5.1(c) 2.6.6.0 2.6.6.1.1 2.6.6.1.6(a) 2.6.6.1.6(b) 2.6.6.1.6(c) 2.6.6.1.8(a) 2.6.6.1.8(b) 2.6.6.1.8(c) 2.6.7.0 2.6.7.1.1 2.6.7.1.4 2.6.7.1.6(a) 2.6.7.1.6(b) 2.6.7.1.6(c) 2.6.7.2.2 2.6.7.2.6(a) 2.6.7.2.6(b) 2.6.7.2.8(a) 2.6.7.2.8(b) 2.6.7.2.8(c) 2.6.7.3.2 2.6.7.3.6 2.6.8.0 2.6.8.1.1 2.6.8.1.4 2.6.8.1.6(a) 2.6.8.1.6(b) 2.6.8.1.6(c) 2.6.8.1.8(a) 2.6.8.1.8(b) 2.6.8.1.8(c) 2.6.8.1.8(d) 2.6.8.1.8(e)

Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Vector Graphic Vector Graphic Scanned Vector Graphic Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Vector Graphic Vector Graphic Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Vector Graphic Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Vector Graphic

E-2

MMPDS-01 31 January 2003 Figure No.

Current Form

Figure No.

Current Form

2.6.8.1.8(f) 2.6.9.0 2.6.9.1.2 2.6.9.1.3 2.6.9.1.4 2.6.9.1.8(a) 2.6.9.1.8(b) 2.6.9.1.8(c) 2.6.9.2.1 2.6.9.2.6(a) 2.6.9.2.6(b) 2.6.9.3.6(a) 2.6.9.3.6(b) 2.6.9.4.8 2.6.9.5.8 2.6.9.6.1 2.6.10.0 2.6.10.1.1 2.6.10.1.2 2.6.10.1.4(a) 2.6.10.1.4(b) 2.6.10.1.6(a) 2.6.10.1.6(b) 2.6.10.1.6(c) 2.7.1.0 2.7.1.1.1(a) 2.7.1.1.1(b) 2.7.1.2.6(a) 2.7.1.2.6(b) 2.7.1.3.1 2.7.1.3.2 2.7.1.3.3 2.7.1.3.4 2.7.1.3.6(a) 2.7.1.3.6(b) 2.7.1.4.6(a) 2.7.1.4.6(b) 2.7.1.5.1 2.7.1.5.2(a) 2.7.1.5.2(b) 2.7.1.5.3 2.7.1.5.4 2.7.1.5.6(a) 2.7.1.5.6(b) 2.7.1.5.6(c) 2.7.1.5.6(d) 2.8.1.1(a) 2.8.1.1(b) 2.8.3.2(a)

Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic

2.8.3.2(b) 2.8.3.2(c) 2.8.3.2(d) 2.8.3.2(e) 2.8.3.2(f) 2.8.3.2(g) 2.8.3.2(h) 2.8.3.2(i) 2.8.3.2(j) 3.1.2.1.1(a) 3.1.2.1.1(b) 3.1.2.1.1(c) 3.2.1.0 3.2.1.1.1(a) 3.2.1.1.1(b) 3.2.1.1.1(c) 3.2.1.1.1(d) 3.2.1.1.1(e) 3.2.1.1.1(f) 3.2.1.1.2(a) 3.2.1.1.2(b) 3.2.1.1.3(a) 3.2.1.1.3(b) 3.2.1.1.4 3.2.1.1.5(a) 3.2.1.1.5(b) 3.2.1.1.6(a) 3.2.1.1.6(b) 3.2.1.1.6(c) 3.2.1.1.6(d) 3.2.1.1.6(e) 3.2.1.1.6(f) 3.2.1.1.6(g) 3.2.1.1.6(h) 3.2.1.1.6(i) 3.2.1.1.6(j) 3.2.1.1.6(k) 3.2.1.1.6(l) 3.2.1.1.6(m) 3.2.1.1.6(n) 3.2.1.1.6(o) 3.2.1.1.6(p) 3.2.1.1.6(q) 3.2.1.1.6(r) 3.2.1.1.6(s) 3.2.1.1.6(t) 3.2.1.1.6(u) 3.2.1.1.6(v) 3.2.1.1.8(a)

Vector Graphic Vector Graphic Scanned Scanned Vector Graphic Scanned Scanned Vector Graphic Scanned Scanned Scanned Scanned Vector Graphic Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned

E-3

MMPDS-01 31 January 2003 Figure No.

Current Form

Figure No.

Current Form

3.2.1.1.8(b) 3.2.1.1.8(c) 3.2.1.1.8(d) 3.2.1.1.8(e) 3.2.2.0 3.2.2.1.4 3.2.3.0 3.2.3.1.1(a) 3.2.3.1.1(b) 3.2.3.1.1(c) 3.2.3.1.1(d) 3.2.3.1.1(e) 3.2.3.1.1(f) 3.2.3.1.2(a) 3.2.3.1.2(b) 3.2.3.1.3(a) 3.2.3.1.3(b) 3.2.3.1.4 3.2.3.1.5(a) 3.2.3.1.5(b) 3.2.3.1.6(a) 3.2.3.1.6(b) 3.2.3.1.6(c) 3.2.3.1.6(d) 3.2.3.1.6(e) 3.2.3.1.6(f) 3.2.3.1.6(g) 3.2.3.1.6(h) 3.2.3.1.6(i) 3.2.3.1.6(j) 3.2.3.1.6(k) 3.2.3.1.6(l) 3.2.3.1.6(m) 3.2.3.1.6(n) 3.2.3.1.6(o) 3.2.3.1.6(p) 3.2.3.1.6(q) 3.2.3.1.6(r) 3.2.3.1.6(s) 3.2.3.1.6(t) 3.2.3.1.6(u) 3.2.3.1.6(v) 3.2.3.1.6(w) 3.2.3.1.6(x) 3.2.3.1.6(y) 3.2.3.1.6(z) 3.2.3.1.6(aa) 3.2.3.1.8(a) 3.2.3.1.8(b)

Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Vector Graphic

3.2.3.1.8(c) 3.2.3.1.8(d) 3.2.3.1.8(e) 3.2.3.1.8(f) 3.2.3.1.8(g) 3.2.3.1.8(h) 3.2.3.1.8(i) 3.2.3.3.1(a) 3.2.3.3.1(b) 3.2.3.3.1(c) 3.2.3.3.1(d) 3.2.3.3.5(a) 3.2.3.3.5(b) 3.2.3.3.6(a) 3.2.3.3.6(b) 3.2.3.3.6(c) 3.2.3.3.6(d) 3.2.3.3.6(e) 3.2.3.4.1(a) 3.2.3.4.1(b) 3.2.3.4.1(c) 3.2.3.4.1(d) 3.2.3.4.1(e) 3.2.3.4.1(f) 3.2.3.4.2(a) 3.2.3.4.2(b) 3.2.3.4.3(a) 3.2.3.4.3(b) 3.2.3.4.5(a) 3.2.3.4.5(b) 3.2.3.4.6(a) 3.2.3.4.6(b) 3.2.3.4.6(c) 3.2.3.4.6(d) 3.2.3.4.6(e) 3.2.3.4.6(f) 3.2.3.4.6(g) 3.2.3.4.6(h) 3.2.3.4.6(i) 3.2.3.4.6(j) 3.2.3.5.1(a) 3.2.3.5.1(b) 3.2.3.5.1(c) 3.2.3.5.1(d) 3.2.3.5.2(a) 3.2.3.5.2(b) 3.2.3.5.3(a) 3.2.3.5.3(b) 3.2.3.5.3(c)

Vector Graphic Vector Graphic Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic

E-4

MMPDS-01 31 January 2003 Figure No.

Current Form

Figure No.

Current Form

3.2.3.5.5(a) 3.2.3.5.5(b) 3.2.3.5.6(a) 3.2.3.5.6(b) 3.2.3.5.6(c) 3.2.3.5.6(d) 3.2.3.5.10(a) 3.2.3.5.10(b) 3.2.4.0 3.2.6.1.6(a) 3.2.6.1.6(b) 3.2.7.1.1(a) 3.2.7.1.1(b) 3.2.7.1.6(a) 3.2.7.1.6(b) 3.2.7.1.9(a) 3.2.7.1.9(b) 3.2.7.1.9(c) 3.2.7.1.9(d) 3.2.7.1.9(e) 3.2.8.0 3.2.8.1.1(a) 3.2.8.1.1(b) 3.2.8.1.6(a) 3.2.8.1.6(b) 3.2.8.2.1(a) 3.2.8.2.1(b) 3.2.8.2.6(a) 3.2.8.2.6(b) 3.2.8.2.8(a) 3.2.8.2.8(b) 3.2.8.2.8(c) 3.2.8.2.8(d) 3.2.8.3.6(a) 3.2.8.3.6(b) 3.2.8.3.6(c) 3.2.8.3.6(d) 3.2.8.3.6(e) 3.2.8.4.1(a) 3.2.8.4.1(b) 3.2.8.4.6(a) 3.2.8.4.6(b) 3.2.8.4.6(c) 3.2.8.4.6(d) 3.2.8.4.6(e) 3.2.10.1.6(a) 3.2.10.1.6(b) 3.2.11.1.6(a) 3.2.11.1.6(b)

Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic

3.2.11.1.6(c) 3.2.12.0 3.2.12.1.1(a) 3.2.12.1.1(b) 3.2.12.1.1(c) 3.2.12.1.1(d) 3.2.12.1.2 3.2.12.1.3 3.2.12.1.4 3.2.12.1.5 3.2.12.1.6(a) 3.2.12.1.6(b) 3.5.1.0 3.5.1.1.1 3.5.1.1.4 3.5.1.1.5 3.5.1.3.1(a) 3.5.1.3.1(b) 3.5.1.3.1(c) 3.5.1.3.1(d) 3.5.1.3.5(a) 3.5.1.3.5(b) 3.5.1.5.1(a) 3.5.1.5.1(b) 3.5.1.5.1(c) 3.5.1.5.1(d) 3.5.1.5.5(a) 3.5.1.5.5(b) 3.5.2.0 3.5.2.1.6(a) 3.5.2.1.6(b) 3.5.2.1.6(c) 3.5.3.1.6(a) 3.5.3.1.6(b) 3.5.3.1.6(c) 3.5.3.2.6(a) 3.5.3.2.6(b) 3.5.3.2.6(c) 3.5.3.3.6(a) 3.5.3.3.6(b) 3.5.3.3.6(c) 3.5.3.4.6 3.5.3.7.6 3.5.4.1.6 3.5.4.2.6 3.5.4.3.6(a) 3.5.4.3.6(b) 3.5.5.0 3.5.5.1.6(a)

Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic

E-5

MMPDS-01 31 January 2003 Figure No.

Current Form

Figure No.

Current Form

3.5.5.1.6(b) 3.5.5.2.6 3.5.5.4.6 3.6.1.1.6(a) 3.6.1.1.6(b) 3.6.2.0 3.6.2.2.1(a) 3.6.2.2.1(b) 3.6.2.2.1(c) 3.6.2.2.1(d) 3.6.2.2.4 3.6.2.2.5(a) 3.6.2.2.5(b) 3.6.2.2.6(a) 3.6.2.2.6(b) 3.6.2.2.6(c) 3.6.2.2.6(d) 3.6.2.2.6(e) 3.6.2.2.6(f) 3.6.2.2.6(g) 3.6.2.2.6(h) 3.6.2.2.6(i) 3.6.2.2.6(j) 3.6.2.2.6(k) 3.6.2.2.6(l) 3.6.2.2.6(m) 3.6.2.2.6(n) 3.6.2.2.6(o) 3.6.2.2.8 3.6.3.0 3.7.1.1.1 3.7.1.1.6(a) 3.7.1.1.6(b) 3.7.1.1.6(c) 3.7.1.1.6(d) 3.7.1.2.6(a) 3.7.1.2.6(b) 3.7.1.2.6(c) 3.7.1.2.6(d) 3.7.2.0 3.7.3.1.1 3.7.3.1.6(a) 3.7.3.1.6(b) 3.7.3.1.6(c) 3.7.3.1.6(d) 3.7.3.1.6(e) 3.7.3.1.6(f) 3.7.3.1.6(g) 3.7.3.1.8(a)

Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned

3.7.3.1.8(b) 3.7.3.1.8(c) 3.7.3.1.8(d) 3.7.3.1.8(e) 3.7.3.1.8(f) 3.7.3.1.8(g) 3.7.4.1.6(a) 3.7.4.1.6(b) 3.7.4.1.6(c) 3.7.4.1.6(d) 3.7.4.1.8(a) 3.7.4.1.8(b) 3.7.4.2.1 3.7.4.2.6(a) 3.7.4.2.6(b) 3.7.4.2.6(c) 3.7.4.2.6(d) 3.7.4.2.6(e) 3.7.4.2.6(f) 3.7.4.2.6(g) 3.7.4.2.6(h) 3.7.4.2.6(i) 3.7.4.2.6(j) 3.7.4.2.8(a) 3.7.4.2.8(b) 3.7.4.2.8(c) 3.7.4.2.8(d) 3.7.4.2.8(e) 3.7.4.2.8(f) 3.7.4.2.8(g) 3.7.4.2.8(h) 3.7.4.2.8(i) 3.7.4.2.8(j) 3.7.4.2.8(k) 3.7.4.2.8(l) 3.7.4.2.9(a) 3.7.4.2.9(b) 3.7.4.2.9(c) 3.7.4.3.6(a) 3.7.4.3.6(b) 3.7.4.3.6(c) 3.7.4.3.6(d) 3.7.4.3.6(e) 3.7.4.3.6(f) 3.7.4.3.8(a) 3.7.4.3.8(b) 3.7.6.0 3.7.6.1.1(a) 3.7.6.1.1(b)

Scanned Scanned Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Vector Graphic Scanned Scanned

E-6

MMPDS-01 31 January 2003 Figure No.

Current Form

Figure No.

Current Form

3.7.6.1.1(c) 3.7.6.1.1(d) 3.7.6.1.2(a) 3.7.6.1.2(b) 3.7.6.1.3(a) 3.7.6.1.3(b) 3.7.6.1.4 3.7.6.1.5(a) 3.7.6.1.5(b) 3.7.6.1.6(a) 3.7.6.1.6(b) 3.7.6.1.6(c) 3.7.6.1.6(d) 3.7.6.1.6(e) 3.7.6.1.6(f) 3.7.6.1.6(g) 3.7.6.1.6(h) 3.7.6.1.6(i) 3.7.6.1.6(j) 3.7.6.1.6(k) 3.7.6.1.6(l) 3.7.6.1.6(m) 3.7.6.1.6(n) 3.7.6.1.6(o) 3.7.6.1.6(p) 3.7.6.1.6(q) 3.7.6.1.8(a) 3.7.6.1.8(b) 3.7.6.1.8(c) 3.7.6.1.8(d) 3.7.6.1.8(e) 3.7.6.1.8(f) 3.7.6.1.8(g) 3.7.6.1.8(h) 3.7.6.1.9 3.7.6.1.10(a) 3.7.6.1.10(b) 3.7.6.1.10(c) 3.7.6.1.10(d) 3.7.6.1.10(e) 3.7.6.1.10(f) 3.7.6.1.10(g) 3.7.6.1.10(h) 3.7.6.2.6(a) 3.7.6.2.6(b) 3.7.6.2.6(c) 3.7.6.2.6(d) 3.7.6.2.6(e) 3.7.6.2.6(f)

Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Scanned Vector Graphic Scanned Vector Graphic Scanned Vector Graphic Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic

3.7.6.2.9(a) 3.7.6.2.9(b) 3.7.6.2.9(c) 3.7.6.2.10(a) 3.7.6.2.10(b) 3.7.7.1.6(a) 3.7.7.1.6(b) 3.7.7.1.6(c) 3.7.7.1.6(d) 3.7.7.2.6(a) 3.7.7.2.6(b) 3.7.7.2.6(c) 3.7.7.2.6(d) 3.7.7.2.8(a) 3.7.7.2.8(b) 3.7.7.2.8(c) 3.7.8.1.6(a) 3.7.8.1.6(b) 3.7.8.1.8(a) 3.7.8.1.8(b) 3.7.8.1.8(c) 3.7.8.1.8(d) 3.7.8.2.6(a) 3.7.8.2.6(b) 3.7.8.2.6(c) 3.7.8.2.6(d) 3.7.8.2.6(e) 3.7.8.2.6(f) 3.7.8.2.8(a) 3.7.8.2.8(b) 3.7.9.1.6(a) 3.7.9.1.6(b) 3.7.9.1.6(c) 3.7.10.1.6(a) 3.7.10.1.6(b) 3.7.10.1.6(c) 3.7.10.1.6(d) 3.7.10.1.6(e) 3.7.10.1.6(f) 3.7.10.1.6(g) 3.7.10.1.8(a) 3.7.10.1.8(b) 3.7.10.1.8(c) 3.7.10.1.10(a) 3.7.10.1.10(b) 3.7.10.1.10(c) 3.7.10.1.10(d) 3.7.10.2.6(a) 3.7.10.2.6(b)

Scanned Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Vector Graphic Scanned Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic

E-7

MMPDS-01 31 January 2003 Figure No.

Current Form

Figure No.

Current Form

3.7.10.2.8(a) 3.7.10.2.8(b) 3.7.10.2.9(a) 3.7.10.2.9(b) 3.7.10.3.6(a) 3.7.10.3.6(b) 3.7.10.3.6(c) 3.7.10.3.6(d) 3.7.10.3.6(e) 3.7.10.3.6(f) 3.7.10.3.6(g) 3.7.10.3.6(h) 3.7.10.3.6(i) 3.7.10.3.6(j) 3.7.10.3.6(k) 3.7.10.3.6(l) 3.7.10.3.10(a) 3.7.10.3.10(b) 3.8.1.0 3.8.1.1.6 3.8.1.1.8(a) 3.8.1.1.8(b) 3.8.1.1.8(c) 3.9.2.0 3.9.4.0 3.9.5.1.6(a) 3.9.5.1.6(b) 3.9.6.1.6 3.9.7.1.6 3.10.1.1.1 3.10.2.3(a) 3.10.2.3(b) 3.10.3.2(a) 3.10.3.2(b) 3.10.3.2(c) 3.10.3.2(d) 3.10.3.2(e) 3.10.3.2(f) 3.10.3.2(g) 4.2.1.0 4.2.1.1.4 4.2.1.1.6 4.2.1.2.1 4.2.1.2.2 4.2.1.2.3 4.2.1.2.4 4.2.1.2.6 4.2.1.4.8(a) 4.2.1.4.8(b)

Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Vector Graphic Vector Graphic Scanned Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Scanned Vector Graphic Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Vector Graphic Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Scanned

4.2.3.0 4.2.3.2.6(a) 4.2.3.2.6(b) 4.2.3.2.8(a) 4.2.3.2.8(b) 4.2.3.2.8(c) 4.3.2.1.4 4.3.2.1.6 4.3.3.0 4.3.3.1.1(a) 4.3.3.1.1(b) 4.3.3.1.1(c) 4.3.3.1.4 4.3.3.1.6(a) 4.3.3.1.6(b) 4.3.4.0 4.3.4.1.1(a) 4.3.4.1.1(b) 4.3.4.1.1(C) 4.3.4.1.6 4.3.5.1.1 4.3.5.1.4 4.3.5.1.6 4.3.6.0 4.3.6.1.1 4.3.6.1.4 4.3.6.1.6(a) 4.3.6.1.6(b) 4.4.2.3(a) 4.4.2.3(b) 4.4.3.2 5.2.1.0 5.2.1.1.1(a) 5.2.1.1.1(b) 5.2.1.1.2(a) 5.2.1.1.2(b) 5.2.1.1.3(a) 5.2.1.1.3(b) 5.2.1.1.6(a) 5.2.1.1.6(b) 5.3.1.0 5.3.1.1.1 5.3.1.1.2 5.3.1.1.3 5.3.1.1.4 5.3.1.1.5 5.3.1.1.9(a) 5.3.1.1.9(b) 5.3.1.1.9(c)

Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Scanned Vector Graphic Scanned Scanned Vector Graphic Scanned Scanned Scanned Scanned Vector Graphic Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Vector Graphic Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned

E-8

MMPDS-01 31 January 2003 Figure No.

Current Form

Figure No.

Current Form

5.3.2.0 5.3.2.1.1 5.3.2.1.4 5.3.2.1.6(a) 5.3.2.1.6(b) 5.3.2.2.1 5.3.2.2.6(a) 5.3.2.2.6(b) 5.3.2.2.8(a) 5.3.2.2.8(b) 5.3.2.2.8(c) 5.3.2.2.8(d) 5.3.2.2.8(e) 5.3.2.2.8(f) 5.3.3.0 5.3.3.1.1 5.3.3.1.2 5.3.3.1.4 5.3.3.1.6(a) 5.3.3.1.6(b) 5.3.3.1.6(c) 5.4.1.0 5.4.1.1.1 5.4.1.1.2 5.4.1.1.3 5.4.1.1.4 5.4.1.1.5 5.4.1.1.6(a) 5.4.1.1.6(b) 5.4.1.1.6(c) 5.4.1.1.6(d) 5.4.1.1.8(a) 5.4.1.1.8(b) 5.4.1.1.8(c) 5.4.1.1.8(d) 5.4.1.1.8(e) 5.4.1.1.8(f) 5.4.1.1.8(g) 5.4.1.1.9 5.4.1.2.1 5.4.1.2.2 5.4.1.2.3 5.4.1.2.4 5.4.1.2.6(a) 5.4.1.2.6(b) 5.4.1.2.6(c) 5.4.1.2.6(d) 5.4.1.2.6(e) 5.4.1.2.6(f)

Scanned Scanned Scanned Vector Graphic Vector Graphic Scanned Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Scanned Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic

5.4.1.2.6(g) 5.4.1.2.6(h) 5.4.1.2.7 5.4.1.2.8(a) 5.4.1.2.8(b) 5.4.1.2.8(c) 5.4.1.2.8(d) 5.4.1.2.8(e) 5.4.1.2.8(f) 5.4.1.2.8(g) 5.4.1.2.8(h) 5.4.1.2.8(i) 5.4.2.0 5.4.2.1.1(a) 5.4.2.1.1(b) 5.4.2.1.2(a) 5.4.2.1.2(b) 5.4.2.1.3(a) 5.4.2.1.3(b) 5.4.2.1.6(a) 5.4.2.1.6(b) 5.4.2.1.6(c) 5.4.2.1.8(a) 5.4.2.1.8(b) 5.4.2.2.1 5.4.2.2.2 5.4.3.1(a) 5.4.3.1(b) 5.4.3.1(c) 5.4.3.2(a) 5.4.3.2(b) 5.4.3.3 5.5.1.0 5.5.1.1.1 5.5.1.1.2 5.5.1.1.3(a) 5.5.1.1.3(b) 5.5.1.1.4 5.5.1.1.6 5.5.1.1.8(a) 5.5.1.1.8(b) 5.5.1.1.8(c) 5.5.1.1.8(d) 5.5.1.2.1 5.5.1.2.2 5.5.1.2.3 5.5.1.2.4 5.5.1.2.6 5.5.1.2.8(a)

Vector Graphic Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Vector Graphic Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Vector Graphic Scanned

E-9

MMPDS-01 31 January 2003 Figure No.

Current Form

Figure No.

Current Form

5.5.1.2.8(b) 5.5.1.2.8(c) 5.5.2.0 5.5.2.1.6(a) 5.5.2.1.6(b) 5.5.3.1.6 5.5.3.2.6 5.6.1.1.1 6.2.1.0 6.2.1.1.1 6.2.1.1.3 6.2.1.1.4(a) 6.2.1.1.4(b) 6.2.1.1.4(c) 6.2.1.1.8(a) 6.2.1.1.8(b) 6.2.1.1.8(c) 6.2.1.1.8(d) 6.2.1.1.8(e) 6.2.2.0 6.2.2.1.1(a) 6.2.2.1.1(b) 6.2.2.1.4(a) 6.2.2.1.4(b) 6.3.1.0 6.3.1.1.1 6.3.1.1.4 6.3.1.1.6(a) 6.3.1.1.6(b) 6.3.2.0 6.3.2.1.1 6.3.2.1.2 6.3.2.1.3 6.3.2.1.4 6.3.3.0 6.3.3.1.1(a) 6.3.3.1.1(b) 6.3.3.1.4(a) 6.3.3.1.4(b) 6.3.3.1.6(a) 6.3.3.1.6(b) 6.3.3.1.6(c) 6.3.3.1.6(d) 6.3.3.1.8(a) 6.3.3.1.8(b) 6.3.3.1.8(c) 6.3.3.1.8(d) 6.3.4.0 6.3.4.1.1

Scanned Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic

6.3.4.1.4 6.3.4.1.5 6.3.4.1.6(a) 6.3.4.1.6(b) 6.3.4.1.6(c) 6.3.5.0 6.3.5.1.1 6.3.5.1.4(a) 6.3.5.1.4(b) 6.3.5.1.4(c) 6.3.5.1.6(a) 6.3.5.1.6(b) 6.3.5.1.6(c) 6.3.5.1.6(d) 6.3.5.1.7(a) 6.3.5.1.7(b) 6.3.5.1.7(c) 6.3.5.1.7(d) 6.3.5.1.7(e) 6.3.5.1.8(a) 6.3.5.1.8(b) 6.3.5.1.8(c) 6.3.5.1.8(d) 6.3.5.1.8(e) 6.3.5.1.8(f) 6.3.5.1.8(g) 6.3.5.1.9(a) 6.3.5.1.9(b) 6.3.5.1.9(c) 6.3.6.0 6.3.6.1.1 6.3.6.1.2 6.3.6.1.3 6.3.6.2.1(a) 6.3.6.2.1(b) 6.3.6.2.4(a) 6.3.6.2.4(b) 6.3.7.0 6.3.7.1.1 6.3.7.1.2 6.3.7.1.3(a) 6.3.7.1.3(b) 6.3.7.1.4 6.3.7.1.5 6.3.7.1.7 6.3.8.0 6.3.8.1.1 6.3.8.1.4 6.3.8.1.5(a)

Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Vector Graphic Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned

E-10

MMPDS-01 31 January 2003 Figure No.

Current Form

Figure No.

Current Form

6.3.8.1.5(b) 6.3.8.1.6(a) 6.3.8.1.6(b) 6.3.9.0(a) 6.3.9.0(b) 6.3.9.0(c) 6.3.9.1.1(a) 6.3.9.1.1(b) 6.3.9.1.4 6.3.9.1.5 6.3.9.1.6(a) 6.3.9.1.6(b) 6.3.9.1.6(c ) 6.3.9.1.6(d ) 6.3.9.1.6(e ) 6.3.9.1.6(f ) 6.3.9.1.6(g ) 6.3.9.1.6(h) 6.3.9.1.6(i) 6.3.10.0(a) 6.3.10.0(b) 6.3.10.0(c) 6.3.10.0(d) 6.3.10.1.1(a) 6.3.10.1.7(a) 6.3.10.1.7(b) 6.4.1.0 6.4.1.1.1 6.4.1.1.2 6.4.1.1.3 6.4.1.1.4(a) 6.4.1.1.4(b) 6.4.1.1.5 6.4.1.1.7 6.4.2.0 6.4.2.1.1(a) 6.4.2.1.1(b) 6.4.2.1.2 6.4.2.1.4(a) 6.4.2.1.4(b) 6.4.2.1.4(c) 6.4.2.1.5 6.4.2.1.6(a) 6.4.2.1.6(b) 6.4.2.1.8(a) 6.4.2.1.8(b) 6.4.2.1.8(c) 6.4.2.1.8(d) 7.2.1.0

Scanned Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Vector Graphic

7.2.1.1.1 7.2.1.1.4 7.3.2.0 7.3.2.1.6(a) 7.3.2.1.6(b) 7.3.2.2.6 7.4.1.0 7.4.1.1.1 7.4.1.1.4(a) 7.4.1.1.4(b) 7.4.1.1.5 7.4.1.1.6 7.4.2.0 7.4.2.1.4 7.4.2.1.6 7.5.1.1.6(a) 7.5.1.1.6(b) 7.5.1.1.6(c) 7.5.1.1.6(d) 7.5.1.1.6(e) 7.5.1.1.6(f) 7.5.1.1.6(g) 7.5.1.1.6(h) 7.5.1.1.6(i) 7.5.1.1.6(j) 7.5.1.1.6(k) 7.5.1.1.6(l) 7.5.2.1.6(a) 7.5.2.1.6(b) 7.5.2.1.6(c) 7.5.2.1.6(d) 7.5.2.1.6(e) 7.5.2.1.6(f) 7.5.2.1.6(g) 7.5.2.1.6(h) 7.5.2.1.6(i) 7.5.2.1.6(j) 8.2.1 8.2.2.3.1.1(a) 8.2.2.3.1.1(b) 8.2.2.3.1.1(c) 8.2.2.3.2.1 8.2.2.3.2.2(a) 8.2.2.3.2.2(b) 8.2.2.3.2.2(c) 8.2.2.3.2.2(d) 8.2.2.3.2.2(e) 9.2.3 9.2.4

Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Scanned Vector Graphic Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned

E-11

MMPDS-01 31 January 2003 Figure No.

Current Form

Figure No.

Current Form

9.2.6 9.2.11 9.2.12 9.2.15(a) 9.2.15(b) 9.3.1.1.2 9.3.1.1.3(a) 9.3.1.1.3(b) 9.3.1.2 9.3.1.3 9.3.1.4(a) 9.3.1.4(b) 9.3.1.5 9.3.1.6.1 9.3.1.6.2 9.3.2.3(a) 9.3.2.3(b) 9.3.2.3(c) 9.3.2.4 9.3.2.5(a) 9.3.2.5(b) 9.3.2.5(c) 9.3.2.5(d) 9.3.2.7(a) 9.3.2.7(b) 9.3.2.7(c) 9.3.4.1(a) 9.3.4.1(b) 9.3.4.1(c) 9.3.4.1(d) 9.3.4.3 9.3.4.4 9.3.4.5 9.3.4.7 9.3.4.10(a) 9.3.4.10(b) 9.3.4.10(c) 9.3.4.12(a) 9.3.4.12(b) 9.3.4.13 9.3.4.16(a) 9.3.4.17(a) 9.3.4.17(b) 9.3.4.17(c) 9.3.4.17(d) 9.3.4.17(e) 9.3.4.17(f) 9.3.4.17(g) 9.3.4.17(h)

Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Vector Graphic Scanned Scanned Vector Graphic Scanned Scanned Vector Graphic Vector Graphic Vector Graphic Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned

9.3.5.1(a) 9.3.5.1(b) 9.3.5.2 9.3.5.6 9.3.6.2 9.3.6.7 9.3.6.8(a) 9.3.6.8(b) 9.3.6.8(c) 9.3.6.8(d) 9.4.1.3 9.4.1.3.4(a) 9.4.1.3.4(b) 9.4.1.3.4(c) 9.4.1.3.4(d) 9.4.1.3.4(e) 9.4.1.5.2(a) 9.4.1.5.2(b) 9.4.1.5.2(c) 9.4.1.5.2(d) 9.4.1.5.2(e) 9.4.1.5.2(f) 9.4.1.5.2(g) 9.4.1.5.2(h) 9.4.1.5.3 9.4.1.6 9.4.1.7.2 9.4.1.7.2, cont. 9.4.2.2 9.4.2.3.2 9.4.2.3.5(a) 9.4.2.3.5(b) 9.4.2.5.2 9.4.2.5.3 9.5.1.3 9.5.1.5.1(a) 9.5.1.5.1(b) 9.5.1.5.1(c) 9.5.1.5.3 9.6.3 A.1

Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned Scanned

E-12