Low Temperature Mechanical Properties Of Copper and Selected ...

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6. Reference Guide for Experimental Papers —Other Alloys ALLOY TYPE OF TEST TEMPERATURES OF TEST Ambient High <strong>Low</strong> Cold EXPERIMENTAL VARIABLES, Irradi- Heating Testing EFFECT OF Chemistry, Surface Flow Measured SINGLE USED Other Alloys Ten silt- Cu.Be.Cr 401 401 401 Cu, Bf, Co Z6, Z77, ^97 26, 269 269 269 297 277 Cu, Ge 132 132 132 132 Cu, Ga 132 132 132 132 Cu, Zn, Fe.Si 26 26 Cu, 5-30 Ni, 30-55 /-ri 77 77 77 Cu-Z3Zn- 4Al-3Fe 81 81 81 Cu-24Zn- 6A1 -4Mn- 3Fe 93 93 93 Cu, Zr 373, 399 Cu, Be Impact 269 269 269 269 Cu, Be Hardness 46 46 Cu.Be.Cr 401 401 401 Cu, 5-30 Ni, 30-55 Zn 77 77 77 Cu-3Ni ISi 451 451 Cu-23Zn - 4Al-3Fc PaU^ 81 81 81 Cu-26Zn- 18Ni 1ZZ 122 Cu-EBe 341 341 C^ Z77 277 Cu.Ni. Zn Elastic Modulus 127 127 Cu, 45- 50Zn 223 223 Cu, Be Shear Modulus 26Z 148
7. Reference Guide for Experimental Papers —Many Alloys in One Investigation ALLOY Many Cu Alloys TYPE OF TEST Tensile TEMPERATURE OF TEST Ambient 49, 86, 112, 294, 384, 430 High 82, 155 <strong>Low</strong> 155 EXPERIMENTAL VARIABLES, EFFECT OF Cold Irradi- H eat ing 8 49, 294, 430 Testing Chemistry, Surface 112,294, 384 Flow Stress Measured SINGLE CRYSTALS USED Compres - 394 155 155 Impact 155 155 Fatigue 86, 206 155 206 Creep 73, 228 228 73 Elastic Modulus 238, 303 175 175, 238, 303 149
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CI3.44:Jdl Low Temperature Mechanic
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UNITED STATES DEPARTMENT OF COMMERC
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Low-Temperature Mechanical Properti
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Section I In this section average v
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Mechanical Properties of Copper TEM
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Mechanical Properties of Cu-Zn (Bra
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Mechanical Properties of Cu-Sn (Pho
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Mechanical Properties of Cu-Si (Sil
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Mechanical Properties of Cu-Ni rlli
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j Mechanical Properties of Cu-Al-Fe
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Contents Copper Tensile and yield s
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Tensile and Yield Strength of Coppe
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Tensile Elongation of Copper TEMPER
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Tensile Elongation of Copper TEMPER
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Tensile Elongation of Copper (Oxyge
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! i ! s?l • ,j o. I 3 p - 0 5' o
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Tensile Reduction of Area of Copper
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Tensile Stress-Strain Curves of Cop
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Hardness of Copper TEMPERATURE, *F
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Fatigue Behavior of Copper CURVE NO
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Fatigue Behavior of Copper (Electro
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Creep Behavior of Copper Cf KV*. CO
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\ Creep Behavior of Copper COMPOSIT
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Creep Behavior of Copper (Oxygen-Fr
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Stress-Rupture Behavior of Copper C
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Modulus of Elasticity of Copper TEM
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Tensile and Yield Strength of 95Cu-
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Fatigue Behavior of 95Cu-5Zn (Glidi
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Impact Energy of 90Cu-10Zn (Commerc
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. Modulus of Rigidity of 90Cu-10Zn
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Tensile Stress-Strain Curves of 85C
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! 1 Creep Behavior of 85Cu-15Zn (Re
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1 Tensile and Yield Strength of 80C
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Fatigue Behavior of 80Cu-20Zn (Low
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Tensile Reduction of Area of 71Cu-2
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Modulus of Elasticity of 71Cu-28Zn-
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j j j Tensile Elongation of 70Cu-30
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Fatigue Behavior of 70Cu-30Zn (Cart
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\ 1 Fatigue Behavior of 70Cu-30Zn (
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Tensile Elongation of 65Cu-35Zn (Ye
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Modulus of Elasticity of 65Cu-35Zn
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Tensile Elongation of 60Cu-39Zn-lSn
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| i Impact Energy of 60Cu-39Zn-lSn
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Modulus of Elasticity of 60Cu-39Zn-
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Tensile Reduction of Area of 60Cu-4
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Fatigue Behavior of 60Cu-40Zn (Munt
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Page 106 and 107: Impact Energy of 90Cu-10Ni TEMPERAT
Page 108 and 109: Tensile and Yield Strength of 80Cu-
Page 110 and 111: t il u 0 1 2 N. O ISf 5-2E "is !" n
Page 112 and 113: Tensile and Yield Strength of 70Cu-
Page 114 and 115: | Impact Energy of 70Cu-30Ni CURVE
Page 116 and 117: Modulus of Elasticity of 70Cu-30Ni
Page 118 and 119: Impact Energy of 55Cu-45Ni TEMPERAT
Page 120 and 121: Tensile Reduction of Area of Cu-Ni-
Page 122 and 123: Tensile and Yield Strength of Cu-Si
Page 124 and 125: Impact Energy of Cu-Si (Silicon Bro
Page 126 and 127: Fatigue Behavior of Cu-Si (Silicon
Page 128 and 129: Tensile and Yield Strength of Cu-Sn
Page 130 and 131: Tensile Reduction of Area of Cu-Sn
Page 132 and 133: Fatigue Behavior of Cu-Sn (Phosphor
Page 134 and 135: Creep Behavior of Cu-Sn (Phosphor B
Page 136 and 137: Tensile and Yield Strength of Cu-Al
Page 138 and 139: Tensile Elongation of Cu-Al (Alumin
Page 140 and 141: Tensile Stress-Strain Curves of Cu-
Page 142 and 143: \ i Fatigue Behavior of Cu-Al (Alum
Page 144 and 145: Tensile and Yield Strength of Cu-Al
Page 146 and 147: Tensile Stress-Strain Curves of Cu-
Page 148 and 149: Creep Behavior of Cu-Al-Ni (Nickel
Page 151 and 152: 1. Reference Guide for Review Paper
Page 153 and 154: i 3. Reference Guide for Experiment
Page 155: 5. Reference Guide for Experimental
Page 161 and 162: List of References 1. NBS Institute
Page 163 and 164: 120. Gillett, H. W., Impact resista
Page 165 and 166: 219. McEvily, A. J., Boettner, R. C
Page 167 and 168: 333. Wellinger, K., Seufert W., Unt
Page 169: NBS TECHNICAL PUBLICATIONS PERIODIC
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