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发表于 2008-8-11 21:13:52
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来自: 中国江苏苏州
Values of The Error Function& o5 _% U, [1 G1 a3 g4 |- I
Diffusion in Metallic Systems
: [# L S+ g9 C xDiffusion of Metals into Metals' Z$ X0 ^& s0 C2 Y8 ~1 u
Diffusion in Semiconductors
% p& \& \+ O& |+ |! r- TCHAPTER 5 Thermal Properties of Materials
5 G8 j* `$ f* q- MSpeci?c Heat of the Elements at 25 ?C$ o) Y4 E- [; B1 Z
Heat Capacity of Ceramics
$ j( R" [( D7 c" ?* HSpeci?c Heat of Polymers " m7 q& | {3 c; p
Speci?c Heat of Fiberglass Reinforced Plastics
+ T( m+ h) O0 _+ v3 hThermal Conductivity of Metals (Part 1)
; R. V% t" j0 ~5 i2 l+ s2 s; j( IThermal Conductivity of Metals (Part 2)
9 M6 ?1 F9 g5 XThermal Conductivity of Metals (Part 3)
, ]; p9 o( h, n' \. ZThermal Conductivity of Metals (Part 4)
& m7 H' {# z3 B8 H) k- UThermal Conductivity of Alloy Cast Irons) C; \+ Q$ m* P: H
Thermal Conductivity of Iron and Iron Alloys
% j& c! Q' l5 N% l6 f Y' O3 mThermal Conductivity of Aluminum and aluminum alloys0 b; D9 G/ T) V. \/ `; R# d0 b
Thermal Conductivity of Copper and Copper Alloys
3 V+ m* C+ J+ g) vThermal Conductivity of Magnesium and Magnesium Alloys
( c; x' ]1 ?: X0 qThermal Conductivity of Nickel and Nickel Alloys2 ]* P- i, ]8 y0 j( r( v4 _
Thermal Conductivity of Lead and Lead Alloys
# _( b1 k, s9 a! M. v- WThermal Conductivity of Tin, Titanium, Zinc and their Alloys3 j) f4 @( h! G- A3 M
Thermal Conductivity of Pure Metals* B( z# o5 \: H' n+ o% B
Thermal Conductivity of Ceramics
5 \3 l7 Z' G. R N3 DThermal Conductivity of Glasses
3 {+ C7 p! t. w, AThermal Conductivity of Cryogenic Insulation* i: }% |7 s8 q0 R% x) A
Thermal Conductivity of Cryogenic Supports
+ k9 C# G. i, z: T8 N; u p- tThermal Conductivity of Special Concretes$ p. Q% T7 ^7 q% J- S
Thermal Conductivity of SiC-Whisker-Reinforced Ceramics) H& P" B( W* R
Thermal Conductivity of Polymers1 i1 |7 ?0 c U2 t- E
Thermal Conductivity of Fiberglass Reinforced Plastics( I4 [; Y6 x* u% b% s/ d$ Z
Thermal Expansion of Wrought Stainless Steels0 N( t' ?- Y1 _5 G: w
Thermal Expansion of Wrought Titanium Alloys+ @ }% t) u( v& P
Thermal Expansion of Graphite Magnesium Castings7 t9 T/ y- U9 }, F/ f2 c. P5 V/ w
Linear Thermal Expansion of Metals and Alloys; y2 ?# M' T% j" |( N
Thermal Expansion of Ceramics) q0 \; V. W# j2 d2 [! y# W
Thermal Expansion of SiC-Whisker-Reinforced Ceramics' i4 m2 F9 A) D! u
Thermal Expansion of Glasses2 ~" N# E% {7 n# g) g* F# v
Thermal Expansion of Polymers
& J; n% P5 U. O, f5 j2 T7 o* xThermal Expansion Coef?cients of Materials for Integrated Circu
V% T U$ f! C4 VThermal Expansion of Silicon Carbide SCS(R)C2Al( D, W: t1 o5 X! w% v% `) _# K/ F
ASTM B 601 Temper Designation Codes : @! N0 ?# _5 E( j' h' d, y
for Copper and Copper Alloys2 c& x, ? X. w g$ F; a( F2 C7 X4 X
Temper Designation System for Aluminum Alloys
6 H. H% J" W* HTool Steel Softening After 100 Hours) l) Z* _( D! u9 Z- l* u
Thermoplastic Polyester Softening with Temperature! O3 [: m( O) a, c ?
Heat-De?ection Temperature ) |% o. n( Z/ A" G. t
of Carbon- and Glass-Reinforced Engineering Thermoplastics. k3 _% Q1 ^ \% M$ y
CHAPTER 6 Mechanical Properties of Materials
; S/ s# Z+ x- BTensile Strength of Tool Steels6 X1 _* P- e$ u8 S0 N2 o
Tensile Strength of Gray Cast Irons! i P) |) R1 ~
Tensile Strength of Gray Cast Iron Bars
/ u$ m1 v b2 TTensile Strength of Ductile Irons+ I) Q, d( C# [( w% W
Tensile Strength of Malleable Iron Castings5 B1 u4 C E6 L2 M
Tensile Strength of Austenitic Stainless Steels
3 o% m, d+ D1 |& A% N% q8 iTensile Strength of Ferritic Stainless Steels
7 Z9 o0 j. S6 Z5 L$ p0 iTensile Strength
5 g- B, p- i1 Q3 S! f3 v2 eof Precipitation-Hardening Austenitic Stainless Steels& j$ k# t; O8 S# q t
Tensile Strength of High(R)Nitrogen Austenitic Stainless Steels. C$ h. q3 ^) {2 N$ K4 u) `
Tensile Strength of Martensitic Stainless Steels
8 W. w& U- t8 z% STensile Strength of Wrought Coppers and Copper Alloys
& y9 a/ g1 H5 Y# {Tensile Strength of Aluminum Casting Alloys9 O4 @% V7 s* v. k ^# H
Tensile Strength of Wrought Aluminum Alloys
7 G* X2 v+ n0 g/ FTensile Strength of Cobalt-Base Superalloys
, Y% |, i6 R. E. N5 c) dTensile Strength of Nickel-Base Superalloys n, P/ ?+ i s. m7 N/ ^" c% P6 ?% V
Tensile Strength
* B2 R( V* F" u kof Wrought Titanium Alloys at Room Temperature
0 V8 }; P! V# z4 K. ETensile Strength of Wrought Titanium Alloys at High Temperature0 Y+ D2 k' a. [
Tensile Strength of Refractory Metal Alloys4 o& L* B) o0 X4 B7 W3 @! U
Tensile Strength of Ceramics
: t; |9 ^" a/ @Tensile Strength of Glass) Z' |1 e8 Z( F& K) P
Tensile Strength of Polymers- B6 u9 F" h( u( S( ^
Tensile Strength of Fiberglass Reinforced Plastics% ]; u5 s2 W1 |3 D `
Tensile Strength 4 s5 z" I( N. `9 M, H" ~$ a/ I' V
of Carbon- and Glass-Reinforced Engineering Thermoplastics# |; @% K% c7 l0 {; J
Strength of Graphite Fiber Reinforced Metals
7 K0 Y# v3 }# `Tensile Strength of Graphite/Magnesium Castings
3 E6 c5 j5 |0 ]$ T# o DTensile Strength of Graphite/Aluminum Composites
# ~( B8 u& v& w1 aTensile Strength of Graphite/Aluminum Composites
6 I S. v/ a6 K4 |# a/ r3 WTensile Strength of Silicon Carbide SCS(R)C2Al
6 x* t) [, o7 [Ultimate Tensile Strength of Investment Cast Silicon Carbide SCS(R)Al0 J. W2 Z0 `8 r+ }
Ultimate Tensile Strength
7 {: R0 C2 [7 B% A* F) w: Tof Silicon Carbide(R)Aluminum Alloy Composites
) E% f* G* ?" U- c) NTensile Strength of SiC-Whisker(R)Reinforced Aluminum Alloy- c ~( E5 L- L% n
Ultimate Tensile Strength " Q- n; C+ V: i' ?
of Aluminum Alloy Reinforced with SiC Whiskers vs. Temperature8 Q1 |% Y, r( n" ?6 e
Ultimate Tensile Strength
2 K1 u: A u1 A2 N H8 |of Reinforced Aluminum Alloy vs. Temperature
& B5 k9 o* j: s. ETensile Strength
) ]; m/ @: D- F1 U* Sof Polycrystalline(R)Alumina(R)Reinforced Aluminum Alloy( U/ D% F) d# d
Tensile Strength of Boron/Aluminum Composites2 s6 H/ a' j, T* W
Compressive Strength of Gray Cast Iron Bars1 r9 y7 x, n: P/ F# W6 }0 Q
Compressive Strength of Ceramics
4 g# V a2 Z. p d* T' }) q- Y$ q: rCompressive Strength of Fiberglass Reinforced Plastic& t* ~" b6 l' V$ y
Ultimate Compressive Strength
* j7 R- ]- U* s1 g0 T# d; k. Eof Investment Cast Silicon Carbide SCS(R)Al# f7 |# J5 }7 i( O
Yield Strength of Tool Steels
. {$ p, H; e# S7 c1 |Yield Strength of Ductile Irons
6 r3 R1 p+ a+ T! {7 i y! HYield Strength of Malleable Iron Castings t0 q' O, O6 w6 t$ i% P/ A
Yield Strength of Austenitic Stainless Steels
& w! ^1 b, d* k2 k3 ]" C ]0 qYield Strength of Ferritic Stainless Steels% c k$ c6 o% P1 W
Yield Strength of Martensitic Stainless Steels
* ~+ A4 s' l* `- AYield Strength of Precipitation-Hardening Austenitic Stainless Steels1 U. `- ]7 D& f) X$ N6 k) F
Yield Strength of High(R)Nitrogen Austenitic Stainless Steels1 p# L0 g7 ?6 y9 p1 r& p
Yield Strength of Wrought Coppers and Copper Alloys* `& c& e! J# T8 Q. ]2 _9 ~; G
Yield Strength of Cast Aluminum Alloys
O: S2 [/ v9 y1 `) M) h: x$ nYield Strength of Wrought Aluminum Alloys
4 v% ^0 t' F) AYield Strength of Wrought Titanium Alloys at Room Temperature
7 w) @0 e6 k" a* T' i& c d7 j/ v' jYield Strength of Wrought Titanium Alloys at High Temperature
: C7 F1 d0 J% LYield Strength of Cobalt-Base Superalloys) C1 M; l4 s+ N5 K6 }" i
Yield Strength of Nickel-Base Superalloys
# T4 A: z0 U$ f. D+ f! ~' R7 A* i% mYield Strength of Commercially Pure Tin" J* y2 U4 x) ]! Y: ?( y& J
Yield Strength of Polymers
' v, W& ^% ]+ j1 FYield Strength of SiC-Whisker(R)Reinforced Aluminum Alloy
O% h* b! b4 u. Z7 aYield Strength of Reinforced Aluminum Alloy vs. Temperature
# E5 \3 H8 f* q# rYield Strength of Polycrystalline(R)Alumina(R)Reinforced Aluminum Alloy( Y" T, f! k4 Q" C5 d! t+ [+ J
Compressive Yield Strength of Polymers A# c9 z b1 @$ g$ N: `' ?3 b
Flexural Strength of Polymers
9 g, j7 k; [. q; W1 ]" }Flextural Strength of Fiberglass Reinforced Plastics
0 ?0 [: y' K- m/ i/ y jShear Strength of Wrought Aluminum Alloys% q! R, M4 C7 I# B- a* V, [
Torsion Shear Strength of Gray Cast Fe
7 E7 P4 t! O& W, k; UHardness of Gray Cast Irons5 F$ w/ X5 T* ^5 A7 l4 s
Hardness of Gray Cast Iron Bars
+ t j) V* ?9 ~ p; M/ I9 \Hardness of Malleable Iron Castings, t8 G9 Q$ D& I8 H, t
Hardness of Ductile Irons8 [; R$ U/ M ]1 i% z6 t' Q/ o
Hardness of Tool Steels Y$ h( ]/ y, _# ?/ b% ]
Hardness of Austenitic Stainless Steels
! [ L5 Z" L" \: H/ {8 s: H- bHardness of Ferritic Stainless Steels
! S C+ o: n1 c; T( ^, w7 _) QHardness of Martensitic Stainless Steels
" h' N! e. V# o* k; R2 I) aHardness of Precipitation-Hardening Austenitic Stainless Steels
. k) V3 [% m+ q1 ^0 C% UMachinability Rating of Wrought Coppers and Copper Alloys: V2 T0 @+ r9 V% H; b V
Hardness of Wrought Aluminum Alloys
1 O7 ]: p i1 }- p6 h4 cHardness of Wrought Titanium Alloys at Room Temperature) B4 W: n! [# \3 |5 i
Hardness of Ceramics
1 T( X' w( Z0 j. m/ m0 s; h" O i( hMicrohardness of Glass. D1 z$ b+ L7 |6 S5 x5 J
Hardness of Polymers+ u# l' {3 r! f" @
Hardness of Si N and Al O Composites
& B8 ?8 T9 |$ c' E* z3 4 2 3
! T3 d1 X6 e$ ^( i/ uCoef?cient of Static Friction for Polymers
$ E$ n+ | @4 A# Y( j$ f* ZAbrasion Resistance of Polymers
7 R7 ^ ]0 o/ P9 YFatigue Strength of Wrought Aluminum Alloys y5 \7 j) I1 n0 d+ b' J! Y7 X
Reversed Bending Fatigue Limit of Gray Cast Iron Bars* m$ f8 I) ^) Z9 \
Impact Energy of Tool Steels" ?3 K0 G3 ]# `6 @- s4 _) o
Impact Strength of Wrought Titanium Alloys at Room Temperature2 }( |9 Y; W# A2 g& Z
Impact Strength of Polymers
9 L2 S& u+ |! S( q! c: fImpact Strength of Fiberglass Reinforced Plastics
: g! b" T$ Y0 ^Impact Strength of 4 D @7 k. S6 Y6 C1 y4 |& _
Carbon- and Glass-Reinforced Engineering Thermoplastics# l6 f4 |6 Y3 Z0 z
Fracture Toughness of Si N and Al O Composites* \* P% J, K6 {# g3 J
3 4 2 3
* w' d9 |$ h, A* s' E+ iTensile Modulus of Gray Cast Irons
. p' \* f* q' O; a# I# E$ O* y. JTension Modulus of Treated Ductile Irons: \3 O6 K5 L$ U8 Z) s( r
Tensile Modulus of Fiberglass Reinforced Plastics
# e0 k5 U8 v9 E: jTensile Modulus of Graphite/Aluminum Composites7 ~7 a H4 D, \: O
Tensile Modulus of Investment Cast Silicon Carbide SCS(R)Al- M" e% x; e9 e9 F# w/ _9 o6 q, v
Tensile Modulus of Silicon Carbide SCS(R)C2Al3 K( K, ~1 ]& `+ Y3 a6 v% q
Young°s Modulus of Ceramics, _4 ~; [, h, V4 r
Young°s Modulus of Glass
/ }* O1 l m& E: xElastic Modulus of Wrought Stainless Steels
( F! R' J8 @8 Q9 C8 H! ]' j" y' uModulus of Elasticity of Wrought Titanium Alloys" G" O( W' l8 c9 X# i
Modulus of Elasticity in Tension for Polymers
x+ N* X0 K, i0 R% X+ FModulus of Elasticity
" t/ b# R% S6 v. ?1 @$ B( Qof 55MSI Graphite/6061 Aluminum Composites
~! ?: A. [9 v+ G( G# UModulus of Elasticity of Graphite/Magnesium Castings
& `* Z& x- Z6 g" y4 b% e0 AModulus of Elasticity of Graphite/Aluminum Composites
/ R$ w5 t6 k- `' _0 z9 \5 ]Modulus of Elasticity of Graphite Fiber Reinforced Metals# T( ?$ I8 H& t! j3 U4 }# o s
Modulus of Elasticity of SiC-Whisker(R)Reinforced Aluminum Alloy |
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发表于 2008-8-11 20:51:02
