材料科学手册（英文）

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Table of contents
$ \- @$ o; w# O% _6 }
CHAPTER 1  Structure of Materials
2 ^6 V& U9 @& |; X% O& g* CElectronic Structure of Selected Elements
Available Stable Isotopes of the Elements
! a) ~! a. l/ T3 a; Q/ JPeriodic Table of the Elements
. o6 Z9 z& E$ N) u% U/ x! ?/ KPeriodic Table of Elements in Metallic Materials
Periodic Table of Elements in Ceramic Materials
4 i! D$ r& @% X% q0 ^' [. EPeriodic Table of Elements in Polymeric Materials
/ a. V' K$ J5 e2 l7 M+ u" R1 JPeriodic Table of Elements in Semiconducting Materials
% J6 b' e) L3 Q/ Q. H" @. j7 OPeriodic Table of Elements in Superconducting Metals
4 \. z* {" c3 R& e6 H4 uAtomic and Ionic Radii of the Elements
2 e5 h# t- r1 `, X% LBond Length Values Between Elements
+ K" r. c3 }' z# N1 F! FPeriodic Table of Carbon Bond Lengths (?)
Carbon Bond Lengths
* a; D6 r8 i8 X' D! K( Z8 V: {Carbon Bond Lengths in Polymers
! f& E7 b: S2 _- g6 Q, i2 S; h6 B) kBond Angle Values Between Elements
Key to Tables of Crystal Structure of the Elements
The Seven Crystal Systems
1 T( u) ?' m( c! k8 e6 `" UThe Fourteen Bravais Lattices
Periodic Table of the Body Centered Cubic Elements
/ E; \- ^0 |" r! N, C, v( \Periodic Table of the Face Centered Cubic Elements
Periodic Table of the Hexagonal Close Packed Elements
/ ^5 x0 R4 f. t7 Q1 d9 L0 b: q! `, `Periodic Table of the Hexagonal Elements
7 k  \2 U* I) X- O% U; t
$ Q3 L0 L0 H' c3 {. xStructure of Ceramics
: u) e( X# f# r5 D; yAtomic Mass of Selected Elements
Solid Density of Selected Elements
; }: I3 [% C! M( @7 }Density of Iron and Iron Alloys
Density of Wrought Stainless Steels
2 E4 P# Z3 n8 H4 \+ M# x  [Density of Stainless Steels and Heat-Resistant Alloys
5 J6 o9 c  W) R9 IDensity of Aluminum Alloys
# t0 s& p( Z: o" a. j6 ]Density of Copper and Copper Alloys
& d0 O( z2 i( ?6 W5 N3 ?! }/ hDensity of Magnesium and Magnesium Alloys
Density of Nickel and Nickel Alloys
* H7 S3 w: @* O8 {Density of Lead and Lead Alloys
! O# [( Y8 Y( g4 Z7 N, iDensity of Tin and Tin Alloys
Density of Wrought Titanium Alloys
Density of Titanium and Titanium alloys
  U+ s2 J) m, q8 z/ g8 zDensity of Zinc and Zinc Alloys
Density of Permanent Magnet Materials
2 ^5 `2 m4 x4 }2 J# L2 NDensity of Precious Metals
4 b+ ~9 K) n; d* mDensity of Superalloys
' M" A& G: l- d0 z$ e3 U" H. jDensity of Selected Ceramics
* e% H4 G9 G$ M- j% iDensity of Glasses
* C$ E. G) u6 Q% l1 ]7 JSpeci?c Gravity of Polymers
) Q3 D+ `0 p1 ~* C5 u. t4 vDensity of 55MSI Graphite/6061 Aluminum Composites
! @. F* h, j' a: h% z6 fDensity of Graphite Fiber Reinforced Metals
N  Composites
2 R. L0 j. j) g) o8 i, ^3 Q  S% `* eDensity of Si
3 4
, R, B, T4 _' X% |8 U; h5 X5 HCHAPTER 2  Composition of Materials
Composition Limits of Tool Steels
Composition Limits of Gray Cast Irons
, e5 N5 |% g6 SComposition Limits of Ductile Irons
Composition Ranges for Malleable Irons
- _# c+ Q5 T: L9 X! KComposition Ranges for Carbon Steels
- B$ M1 U; k- i4 e2 l. o7 J1 s( C/ rComposition Ranges for Resulfurized Carbon Steels
Composition Ranges for Alloy Steels

9 l6 p! P; N: g1 p/ AComposition of Stainless Steels
Composition of  Wrought Coppers and Copper Alloys
" y% E( p( R4 ~' q  G; qClassi?cation of Copper and Copper Alloys
Composition Ranges for Cast Aluminum Alloys
  U; ~7 }3 N/ Y: ^Composition Ranges for Wrought Aluminum Alloys
Composition of Tin and Tin Alloys
  w2 \8 m0 b7 d* J) i$ I& ACompositions of ACI Heat-Resistant Casting Alloys
Composition of Zinc Die Casting Alloys
Compositions of Wrought Superalloys
Typical Composition of Glass-Ceramics
6 g( l; F* s6 }CHAPTER 3  Phase Diagram Sources
Phase Diagram Sources
CHAPTER 4  Thermodynamic and Kinetic Data
$ Y( C4 M3 E1 Y, uBond Strengths in Diatomic Molecules
% L2 k* q: t' _/ @7 {7 N+ zBond Strengths of Polyatomic Molecules
5 j3 k. C/ s! w3 RSolubility of Copper and Copper Alloys
- D; t) V" t* ?5 M- w" i1 Z2 aHeat of Formation of Inorganic Oxides
: {" ], Z3 k; G6 ~# G9 d: gPhase Change Thermodynamic Properties for The Elements
Phase Change Thermodynamic Properties of Oxides
, t# f- W3 G$ E( K2 ^Melting Points of the Elements
+ Z4 y9 m- m3 K$ KMelting Points of Elements and Inorganic Compounds
# x) a5 w) |1 V. Q. g" BMelting Points Of Ceramics
Heat of Fusion For Elements and Inorganic Compounds
Heats of Sublimation of Metals and Their Oxides
Key to Tables of Thermodynamic Coef?cients
Thermodynamic Coef?cients for Selected Elements
3 [% N' _# W8 ^! T& U) _' GThermodynamic Coef?cients for Oxides
Entropy of the Elements
8 o# ]8 e3 o, K! ~  K' jVapor Pressure of the Elements at Very Low Pressures
. ~/ m2 o1 e. u# {1 VVapor Pressure of the Elements at Moderate Pressures
Vapor Pressure of the Elements at High Pressures
+ Z7 O2 ]  L2 }, p8 [Vapor Pressure of Elements and Inorganic Compounds

[ 本帖最后由 himher 于 2008-8-11 21:29 编辑 ]

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Values of The Error Function
Diffusion in Metallic Systems
/ A; F- e; D; E7 K' N. Z) s. ZDiffusion  of Metals into Metals
# u+ T( P* g, p+ d0 |* u: {Diffusion in Semiconductors
CHAPTER 5  Thermal Properties of Materials
Speci?c Heat of the Elements at 25 ?C
* d# q/ B+ j" {/ Z% ]! K# B& `Heat Capacity of Ceramics
! O9 H/ o9 A  w" e3 X* ^Speci?c Heat of Polymers
0 p) j5 T3 C7 OSpeci?c Heat of Fiberglass Reinforced Plastics
8 P" E1 G) y/ m, ^6 Q; eThermal Conductivity of Metals (Part 1)
0 `1 r" p1 S7 r) e# u0 w3 MThermal Conductivity of Metals (Part 2)
% p+ _9 v$ p2 w: z8 t( `# F' G0 I6 ~Thermal Conductivity of Metals (Part 3)
Thermal Conductivity of Metals (Part 4)
; e' K/ {7 Y3 b( h+ f, IThermal Conductivity of Alloy Cast Irons
: H+ u9 y& |* j) @3 YThermal Conductivity of  Iron and Iron Alloys
Thermal Conductivity of Aluminum and aluminum alloys
Thermal Conductivity of Copper and Copper Alloys
Thermal Conductivity of  Magnesium and Magnesium Alloys
' o& Q; S* U0 K0 A4 eThermal Conductivity of Nickel and Nickel Alloys
Thermal Conductivity of Lead and Lead Alloys
$ m7 K3 X! O  YThermal Conductivity of  Tin, Titanium, Zinc and their Alloys
Thermal Conductivity of Pure Metals
3 F% B6 M( Z, h) y2 h# C" L% PThermal Conductivity of Ceramics
Thermal Conductivity of Glasses
( C* \! _1 J" `- M1 fThermal Conductivity of Cryogenic Insulation
9 n9 |7 G. M5 z7 {Thermal Conductivity of Cryogenic Supports
6 I5 e, ~  R* |! i  m- Q" GThermal Conductivity of Special Concretes
Thermal Conductivity of SiC-Whisker-Reinforced Ceramics
Thermal Conductivity of Polymers
2 P( z( ]  |8 [' u/ l" KThermal Conductivity of Fiberglass Reinforced Plastics
2 K/ S* f. Z5 D3 J7 cThermal Expansion of Wrought Stainless Steels
Thermal Expansion of Wrought Titanium Alloys
$ W  B% J) }0 z& uThermal Expansion of Graphite Magnesium Castings
! v( Q+ R# c9 D) y4 }Linear Thermal Expansion of Metals and Alloys
  o' F$ [7 V7 e7 o2 {; X0 HThermal Expansion of Ceramics
6 p. J$ B3 D: c% QThermal Expansion of SiC-Whisker-Reinforced Ceramics
& j8 a  E; {3 G; z; b6 A: C+ UThermal Expansion of Glasses
Thermal Expansion of Polymers
Thermal Expansion Coef?cients of Materials for Integrated Circu
Thermal Expansion of Silicon Carbide SCS(R)C2Al
ASTM B 601 Temper Designation Codes
for Copper and Copper Alloys
Temper Designation System for Aluminum Alloys
3 u4 R2 O3 X8 k+ Z# ]Tool Steel Softening After 100 Hours
6 U$ A. G* d* pThermoplastic Polyester Softening with Temperature
0 _, Z2 Y2 @1 }' T3 p1 k% THeat-De?ection Temperature
of Carbon- and Glass-Reinforced Engineering Thermoplastics
CHAPTER 6  Mechanical Properties of Materials
Tensile Strength of Tool Steels
) U% c( g1 Q- w1 u4 j9 V0 c2 vTensile Strength of Gray Cast Irons
Tensile Strength of Gray Cast Iron Bars
Tensile Strength of Ductile Irons
Tensile Strength of Malleable Iron Castings
" M) v  i' ?/ m% U8 iTensile Strength of Austenitic Stainless Steels
Tensile Strength of Ferritic Stainless Steels
Tensile Strength
  a5 z* T. W7 A* Wof  Precipitation-Hardening Austenitic Stainless Steels
Tensile Strength of High(R)Nitrogen Austenitic Stainless Steels
Tensile Strength of Martensitic Stainless Steels
Tensile Strength of Wrought Coppers and Copper Alloys
Tensile Strength of Aluminum Casting Alloys
" B/ H+ M: [1 V( \2 c! R4 kTensile Strength of Wrought Aluminum Alloys
( d$ ?/ ]3 ~6 GTensile Strength of Cobalt-Base Superalloys
Tensile Strength of Nickel-Base Superalloys
4 z+ ~4 E8 J: O) {0 G* CTensile Strength
of Wrought Titanium Alloys at Room Temperature
Tensile Strength of Wrought Titanium Alloys at High Temperature
. n" q8 c) p5 [. wTensile Strength of Refractory Metal Alloys
Tensile Strength of Ceramics
1 g0 U& h- }6 s) w; ?Tensile Strength of Glass
7 @2 a! i8 ^) A, hTensile Strength of Polymers
Tensile Strength of Fiberglass Reinforced Plastics
$ o* o  \' a8 {% G3 }* p6 D+ K5 BTensile Strength
  w" _, i5 h5 t( R* n7 k2 F4 ]of Carbon- and Glass-Reinforced Engineering Thermoplastics
& |, k% V" A; i! DStrength of Graphite Fiber Reinforced Metals
Tensile Strength of Graphite/Magnesium Castings
Tensile Strength of Graphite/Aluminum Composites
; h1 k# Q& s4 g( U& A" TTensile Strength of Graphite/Aluminum Composites
5 o; H7 I; I' @% f1 ], cTensile Strength of Silicon Carbide SCS(R)C2Al
Ultimate Tensile Strength of Investment Cast Silicon Carbide SCS(R)Al
Ultimate Tensile Strength
& I4 [6 M1 Y& M4 t3 Pof Silicon Carbide(R)Aluminum Alloy Composites
Tensile Strength of SiC-Whisker(R)Reinforced Aluminum Alloy
Ultimate Tensile Strength
of Aluminum Alloy  Reinforced with SiC Whiskers vs. Temperature
+ h2 \9 y% |$ z1 @) L7 J' L' o7 ZUltimate Tensile Strength
6 r& W5 a( F- q$ j# |of Reinforced Aluminum Alloy  vs. Temperature
Tensile Strength
( @6 h' m! _& ~; e  Q' i5 v6 [, Z+ @of Polycrystalline(R)Alumina(R)Reinforced Aluminum Alloy
: X7 @, I7 f  }. K) QTensile Strength of Boron/Aluminum Composites
$ O: _" }+ h+ L+ b( a0 G$ |, iCompressive Strength of Gray Cast Iron Bars
) n& \" J) ]3 u4 B8 g. h1 u6 fCompressive Strength of Ceramics
1 O( `7 v3 x# a* Y% S6 F7 S& ICompressive Strength of Fiberglass Reinforced Plastic
Ultimate Compressive Strength
of Investment Cast Silicon Carbide SCS(R)Al
) ?% F5 m* Y! Z* v$ D5 D6 {4 vYield Strength of Tool Steels
: F' E. v% q) u  J6 A& y! ~. U# uYield Strength of Ductile Irons
Yield Strength of Malleable Iron Castings
: q9 K4 i4 n9 q7 o% o8 w( \6 q- nYield Strength of Austenitic Stainless Steels
: ~( t# c; m. K& ~8 s5 KYield Strength of Ferritic Stainless Steels
3 y& j! A( ?) nYield Strength of Martensitic Stainless Steels
) L; I3 @8 m& E& e' GYield Strength of  Precipitation-Hardening Austenitic Stainless Steels
% g9 g( A% y1 X3 S( d) |Yield Strength of High(R)Nitrogen Austenitic Stainless Steels
9 c" \% B- J6 ~% B1 b8 ^Yield Strength of Wrought Coppers and Copper Alloys
& ~- G6 [/ I: z5 R& n8 G' C/ I' bYield Strength of Cast Aluminum Alloys
$ G: Y% K% W( C$ R7 s' ^Yield Strength of Wrought Aluminum Alloys
$ }# K1 s8 q5 jYield Strength of Wrought Titanium Alloys at Room Temperature
Yield Strength of Wrought Titanium Alloys at High Temperature
- x/ |% O) R: E& p* V8 u4 m" C( D& }Yield Strength of Cobalt-Base Superalloys
Yield Strength of Nickel-Base Superalloys
. j0 n" l6 W7 \3 {8 tYield Strength of Commercially Pure Tin
% n% t/ w' U! k0 Z# Z- V# r2 ZYield Strength of Polymers
Yield Strength of SiC-Whisker(R)Reinforced Aluminum Alloy
% O. ^$ {* K( {: y9 ~" nYield Strength of Reinforced Aluminum Alloy vs. Temperature
; n# C8 c5 j9 i5 q) w6 {Yield Strength of Polycrystalline(R)Alumina(R)Reinforced Aluminum Alloy
Compressive Yield Strength of Polymers
( p, t% V  O8 u" P4 O7 WFlexural Strength of Polymers
Flextural Strength of Fiberglass Reinforced Plastics
0 [$ Q- X5 X5 A$ |: ?6 UShear Strength of Wrought Aluminum Alloys
Torsion Shear Strength of Gray Cast Fe
8 `  |/ C& o( k( N7 R; ^1 IHardness of Gray Cast Irons
Hardness of Gray Cast Iron Bars
9 e- r* {& g" F2 ?% ^* V3 nHardness of Malleable Iron Castings
* _! b) b' B' N3 T2 s( DHardness of Ductile Irons
6 s" Y$ {% M+ W/ D+ _+ HHardness of Tool Steels
Hardness of Austenitic Stainless Steels
, q8 O5 }- o$ N  iHardness of Ferritic Stainless Steels
- q1 {: _+ A* _5 mHardness of Martensitic Stainless Steels
Hardness of  Precipitation-Hardening Austenitic Stainless Steels
Machinability Rating of Wrought Coppers and Copper Alloys
Hardness of Wrought Aluminum Alloys
$ \4 q+ q; h/ Z- oHardness of Wrought Titanium Alloys at Room Temperature
& x; n4 t: @3 k: i. M' p6 vHardness of Ceramics
Microhardness of Glass
/ k9 s5 ?: N3 T2 H) u0 aHardness of Polymers
Hardness of Si N  and Al O  Composites
) S$ j* [+ w" L5 G( U! \3 ^5 m3 4 2 3
Coef?cient of Static Friction for Polymers
Abrasion Resistance of Polymers
0 u% z4 l2 h) kFatigue Strength of Wrought Aluminum Alloys
Reversed Bending Fatigue Limit of Gray Cast Iron Bars
Impact Energy of Tool Steels
# _1 v6 }* _; J9 d) K( u$ hImpact Strength of Wrought Titanium Alloys at Room Temperature
5 e7 q1 [/ g5 K' ?2 VImpact Strength of Polymers
Impact Strength of Fiberglass Reinforced Plastics
/ F8 _3 `) a1 C$ C* o8 AImpact Strength of
Carbon- and Glass-Reinforced Engineering Thermoplastics
& t- M7 u: x5 a% E) ^3 k% s' F% u0 |Fracture Toughness of Si N  and Al O  Composites
3 4 2 3
Tensile Modulus of Gray Cast Irons
% |. D+ I4 C# I- C8 eTension Modulus of Treated Ductile Irons
/ w! c9 \; l% B1 X# x; L4 STensile Modulus of Fiberglass Reinforced Plastics
0 T# [* s2 q! H( [8 YTensile Modulus of Graphite/Aluminum Composites
( a9 w( O; X( ^5 e# x, I0 ^6 @Tensile Modulus of Investment Cast Silicon Carbide SCS(R)Al
2 ~$ x# |% A- m9 o/ LTensile Modulus of Silicon Carbide SCS(R)C2Al
3 s0 i7 v2 L3 y: L* h6 w+ A6 aYoung°s Modulus of Ceramics
: P  f: D; ^& Y+ D% Y5 o5 ^2 B: MYoung°s Modulus of Glass
Elastic Modulus of Wrought Stainless Steels
; A( n$ P' h" @7 p+ S/ D$ A; kModulus of Elasticity of Wrought Titanium Alloys
Modulus of Elasticity in Tension for Polymers
8 {( c$ O/ v; E0 E8 o1 [) T# m/ U5 cModulus of Elasticity
4 n: I, G# |) L6 f9 z0 qof 55MSI Graphite/6061 Aluminum Composites
Modulus of Elasticity of Graphite/Magnesium Castings
, R: U4 e: ?1 U  w& ?1 q/ IModulus of Elasticity of Graphite/Aluminum Composites
( s" c) F! y0 b% o0 }Modulus of Elasticity of Graphite Fiber Reinforced Metals
9 H7 R& |( p1 R  i- iModulus of Elasticity of SiC-Whisker(R)Reinforced Aluminum Alloy

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Modulus of Elasticity
- y& @8 m4 ]" wof Polycrystalline(R)Alumina(R)Reinforced Aluminum Alloy
Modulus of Elasticity of Boron/Aluminum Composites
" X, Q1 ^) i4 d3 j4 lCompression Modulus of Treated Ductile Irons
7 c- W" \9 \8 P5 ]4 h" zModulus of Elasticity in Compression for Polymers
( q* i6 N1 J& H: G' HBulk Modulus of Glass
2 C, Q. w& F6 D+ I% ]" r- x! ZShear Modulus of Glass
  ]6 A  r; t( ~9 vTorsional Modulus of Gray Cast Irons
Torsion Modulus of Treated Ductile Irons
- m$ l* ~- C* A! yModulus of Elasticity in Flexure for Polymers
! I) g  c4 C4 m7 G. LFlexural Modulus of Fiberglass Reinforced Plastics
Flexural Modulus
of Carbon- and Glass-Reinforced Engineering Thermoplastics
Modulus of Rupture for Ceramics
Rupture Strength of Refractory Metal Alloys
Rupture Strength of Superalloys
N  and Al O Composites
Modulus of Rupture for Si
3 4 2 3
Poisson's Ratio of Wrought Titanium Alloys
; O# i  j9 v) C* p" }3 G* xPoisson°s Ratio for Ceramics
: h& T& S% @0 p/ X3 GPoisson°s Ratio of Glass
( H" Y( ]7 I  wPoisson's Ratio of Silicon Carbide SCS(R)C2Al
! `8 D7 O: p" q5 w1 e5 O* G0 gCompression Poisson°s Ratio of Treated Ductile Irons
Torsion Poisson°s Ratio of Treated Ductile Irons
+ X. g; e; [% [2 V" v$ ^Elongation of Tool Steels
# @# _% k: a( }3 ?- j1 QElongation of Ductile Irons
Elongation of Malleable Iron Castings
8 R- l0 z8 O. G3 o' IElongation of Ferritic Stainless Steels
% R4 ^8 g, g7 T# G" OElongation of Martensitic Stainless Steels
6 u$ _3 {- U- S2 VElongation of  Precipitation-Hardening Austenitic Stainless Steels
Elongation of High(R)Nitrogen Austenitic Stainless Steels
# C6 j1 }  A0 H% g! j" jTotal Elongation of Cast Aluminum Alloys
2 T; E( D( \. ?8 T8 ~( Q- vElongation of Wrought Coppers and Copper Alloys
Elongation of Commercially Pure Tin

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Elongation of Cobalt-Base Superalloys
' Y, K1 F6 N$ d3 d4 ]  jElongation of Nickel-Base Superalloys
- z7 l: _7 t8 o  }3 H2 ZDuctility of Refractory Metal Alloys
Elongation of Wrought Titanium Alloys at Room Temperature
Elongation of Wrought Titanium Alloys at High Temperature
' l/ I% c: m1 \Total Elongation of Polymers
  f% Y: ^4 m- I" _Elongation at Yield for Polymers
: b# T- Z4 K* C9 `Ultimate Tensile Elongation of Fiberglass Reinforced Plastics
, f  F% n( `* j' PTotal Strain of Silicon Carbide SCS(R)C2Al
Area Reduction of Tool Steels
7 a7 ^/ Q: Y. `# Y# S& u: pReduction in Area of Austenitic Stainless Steels
3 r) E- c3 z3 q+ C! J, AReduction in Area of Ferritic Stainless Steels
; O) l) N3 h( d2 R% nReduction in Area of High(R)Nitrogen Austenitic Stainless Steels
4 V: R3 w/ i; z1 dReduction in  Area
9 `& M, Q+ D+ \+ l) g  i/ Kof Precipitation-Hardening Austenitic Stainless Steels
8 P4 k' q2 S$ p, m) Z% M3 ^Reduction in Area of Martensitic Stainless Steels
6 j7 _7 x4 ]- g: H5 e( LReduction in Area of Commercially Pure Tin
9 Y/ i; @7 b0 H0 y/ c0 k5 v# q7 BArea Reduction of Wrought Titanium Alloys at Room Temperature
Area Reduction of Wrought Titanium Alloys at High Temperature
* B" \  k% e2 T9 _' u+ T! w( K/ oStrength Density Ratio of Graphite Fiber Reinforced Metals
Modulus Density Ratio of Graphite Fiber Reinforced Metals
Viscosity of Glasses
& c& ~$ l# H& k" Q- J# ^ Glass
Internal Friction of SiO
2
Surface Tension of Elements at Melting
- I  z" n! j3 _! n% pSurface Tension of Liquid Elements
CHAPTER 7  Electrical Properties of Materials
" \) b6 o" l9 A  Q. nElectrical Conductivity of Metals
Electrical Resistivity of Metals
# w# I; W  F& x' B2 o  ?2 |- mElectrical Resistivity of Alloy Cast Irons
Resistivity of Ceramics
0 }( W+ A: X% z* r/ e8 _* |Volume Resistivity of Glass
Volume Resistivity of Polymers

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Critical Temperature of Superconductive Elements
Dissipation Factor for Polymers
Dielectric Strength of Polymers
* O6 e& V6 A# `* h% A3 U; y/ @* \: `Step Dielectric Strength of Polymers
! V' q- s; e3 h4 j( Q$ F% ?& WDielectric Constant of Polymers
Dielectric Breakdown of Polymers
4 l: a7 L7 ~' p( A. LDielectric Breakdown of Polymers
Tangent Loss in Glass
' A) C; f7 H: }Electrical Permittivity of Glass
3 s# x" `9 b' T  [: [# CArc Resistance of Polymers
) G  P5 A' d. a+ _) `" Z  v' _2 JCHAPTER 8  Optical Properties of Materials
Transmission Range of Optical Materials
+ W! s. O* ~0 Z8 [" YTransparency of Polymers
! Q' K3 e3 g/ YRefractive Index of Polymers
Dispersion of Optical Materials
$ w9 h9 I. k, p' W2 p! L+ k. XCHAPTER 9  Chemical Properties of Materials
' w1 ?; w) r' C& |/ ~: V) JWater Absorption of Polymers
Standard Electromotive Force Potentials
0 x* f; X8 t  M9 V3 oGalvanic Series of Metals
/ J  x1 V) k! X2 i3 jGalvanic Series of Metals in Sea Water
% P% _- h3 E1 N3 C6 B: YCorrosion Rate of Metals in Acidic Solutions
+ k3 {% |' Q$ N4 d7 NCorrosion Rate of Metals in Neutral and Alkaline Solutions
3 w9 F" n! j- E3 p3 r* I# wCorrosion Rate of Metals in Air
Corrosion Rates of 1020 Steel at 70?F
Corrosion Rates of Grey Cast Iron at 70?F
Corrosion Rates of Ni(R)Resist Cast Iron at 70?F
. }, v$ I/ G( \( v4 A0 |$ dCorrosion Rates of 12% Cr Steel at 70?
$ D6 B* K( Z7 S9 |6 CCorrosion Rates of 17% Cr Steel at 70?F
- @  S4 ~. M4 h+ m. l- WCorrosion Rates of 14% Si Iron at 70?F
Corrosion Rates of Stainless Steel 301 at 70?F
: \4 V- r0 L$ N1 g- V$ |Corrosion Rates of Stainless Steel 316 at 70?F
Corrosion Rates of Aluminum at 70?F

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Corrosion Resistance of Wrought Coppers and Copper Alloys
5 x' y' |6 f- c9 p8 ACorrosion Rates of 70-30 Brass at 70?F
8 a0 c/ ~# f3 K4 p! m( W/ |$ B# K9 mCorrosion Rates of Copper, Sn-Braze, Al-Braze at 70?F
0 z1 J' b2 c, y" k0 N# uCorrosion Rates of Silicon Bronze at 70?F
Corrosion Rates of Hastelloy at 70?F
- R) z$ R8 N, Z/ r3 zCorrosion Rates of Inconel at 70?F
& T9 f  ?5 {6 @/ L+ H3 j/ MCorrosion Rates of Nickel at 70?F
Corrosion Rates of  Monel at 70?F
: f( J) S8 `2 |+ g. a; JCorrosion Rates of Lead at 70?F
% B& Q0 P+ n( M/ ECorrosion Rates of Titanium at 70?F
4 Q& V' v* x8 B  u0 \Corrosion Rates of ACI Heat(R)Resistant Castings Alloys in Air
Corrosion Rates for ACI Heat(R)Resistant Castings Alloys in Flue Gas
1 [  b% C( [8 c- i6 F+ I( lFlammability of Polymers
Flammability of Fiberglass Reinforced Plastics
3 W! c  ^% {& n* x. ICHAPTER 10  Selecting Structural Properties
Selecting Atomic Radii of the Elements
4 d& f3 @( g: R+ Y9 ASelecting Ionic Radii of the Elements
Selecting Bond Lengths Between Elements
Selecting Bond Angles Between Elements
  v0 n' Z) I7 E; W$ ?Selecting Density of the Elements
CHAPTER 11  Selecting Thermodynamic
and Kinetic Properties
" @4 F% a. W% c2 mSelecting Bond Strengths in Diatomic Molecules
4 l& T, i! O+ t$ L& uSelecting Bond Strengths of Polyatomic Molecules
0 K. X% ]/ ^0 T( H- n. E4 \Selecting Heat of Formation of Inorganic Oxides
Selecting Speci?c Heat of Elements
Selecting Speci?c Heat of Polymers
Selecting Melting Points of The Elements
6 h( v# T" M; O, e" G; ?, ?0 E, [; U! iSelecting Melting Points of Elements and Inorganic Compounds
! Y8 d- R( R5 Q" a! ]Selecting Melting Points of Ceramics
4 x/ T& y5 T+ zSelecting Heat of Fusion For Elements and Inorganic Compounds
Selecting Entropy of the Elements

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