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9780871706904

ASM Ready Reference : Electrical and Magnetic Properties of Metals

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  • ISBN13:

    9780871706904

  • ISBN10:

    0871706903

  • Format: Hardcover
  • Copyright: 2000-12-01
  • Publisher: Asm Intl
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Summary

A Reference listing the electrical and magnetic properties of metals. Each data entry includes the material's name, temper, UNS number, property values in SI and alternate units, and a source of the data. DLC: Metals--Electric properties.

Table of Contents

Volume Conductivity at Ambient Temperature of High Conductivity Material Families
7(35)
Aluminum
7(12)
Cast
7(4)
Sintered Powder Aluminum
11(1)
Wrought
11(8)
Copper
19(19)
Cast
19(3)
Miscellaneous
22(1)
Welding filler copper
23(1)
Wrought
23(15)
Noble
38(3)
Gold
38(1)
Palladium
38(1)
Platinum
39(1)
Silver
39(2)
Thermostat Metals
41(1)
Unclassified
41(1)
Unclassified
41(1)
Volume Resistivity at Ambient Temperature of High Conductivity Material Families
42(18)
Aluminum
42(9)
Cast
42(1)
Wrought
43(8)
Copper
51(4)
Cast
51(1)
Miscellaneous
52(1)
Wrought
52(3)
Noble
55(3)
Gold
55(1)
Iridium
56(1)
Osmium
56(1)
Palladium
56(1)
Platinum
56(1)
Rhodium
57(1)
Ruthenium
57(1)
Silver
57(1)
Thermostat Metals
58(1)
Unclassified
58(1)
Unclassified
59(1)
Weight Conductivity at Ambient Temperature of High Conductivity Aluminum Material Families
60(5)
Aluminum
60(5)
Wrought
60(5)
Weight Conductivity at Ambient Temperature of High Conductivity Copper Material Families
65(8)
Copper
65(8)
Wrought
65(8)
Weight Resistivity at Ambient Temperature of High Conductivity Material Families
73(9)
Copper
73(9)
Wrought
73(9)
Volume Resistivity at High and Low Temperature of High Conductivity Material Families
82(6)
Aluminum
82(1)
Wrought
82(1)
Copper
83(1)
Wrought
83(1)
Nickel
84(1)
Nickel
84(1)
Noble
84(4)
Gold
84(1)
Iridium
84(1)
Osmium
85(1)
Palladium
85(1)
Platinum
85(1)
Rhodium
86(1)
Ruthenium
86(1)
Silver
87(1)
Thermal Coefficient of Resistivity of High Conductivity Material Families
88(4)
Aluminum
88(2)
Cast
88(1)
Wrought
88(2)
Copper
90(1)
Wrought
90(1)
Noble
90(2)
Gold
90(1)
Iridium
91(1)
Osmium
91(1)
Palladium
91(1)
Platinum
91(1)
Rhodium
91(1)
Ruthenium
91(1)
Silver
91(1)
Relative Resistivity at Extreme Temperatures of High Conductivity Material Families
92(2)
Aluminum
92(1)
Wrought
92(1)
Noble
92(2)
Palladium
92(1)
Platinum
92(2)
Volume Conductivity at Ambient Temperature of Higher Resistivity Material Families
94(8)
Copper
94(1)
Miscellaneous
94(1)
Wrought
94(1)
Magnesium
94(1)
Cast
94(1)
Wrought
95(1)
Miscellaneous Iron Alloy
95(2)
Low Expansion
95(1)
Magnetically Soft Iron
95(1)
Permanent Magnet
96(1)
Unclassified
97(1)
Nickel
97(1)
Electrical Resistance Nickel
97(1)
Magnetically Soft Nickel
97(1)
Nickel
97(1)
Refractory
98(1)
Cobalt
98(1)
Molybdenum
98(1)
Niobium
98(1)
Rhenium
98(1)
Tantalum
98(1)
Tungsten
98(1)
Steel
99(2)
Alloy
99(1)
Carbon Steel
100(1)
Cast Stainless
100(1)
Wrought Stainless
100(1)
Unclassified
101(1)
Zinc
101(1)
Cast
101(1)
Volume Resistivity at Ambient Temperature of Higher Resistivity Material Families
102(19)
Actinide
102(1)
Plutonium
102(1)
Uranium
102(1)
Aluminum
102(1)
Wrought
102(1)
Carbon
102(1)
Graphite
102(1)
Cast Iron
102(1)
Ductile
102(1)
Gray
102(1)
Miscellaneous
102(1)
White
102(1)
Ceramic Permanent Magnet
102(1)
Copper
102(1)
Miscellaneous
102(1)
Wrought
103(1)
Lanthanide
103(1)
Dysprosium
103(1)
Erbium
103(1)
Europium
103(1)
Gadolinium
103(1)
Holmium
103(1)
Lutetium
103(1)
Neodymium
103(1)
Praseodymium
103(1)
Samarium
103(1)
Terbium
103(1)
Thulium
104(1)
Ytterbium
104(1)
Magnesium
104(1)
Cast
104(1)
Wrought
105(1)
Miscellaneous Iron Alloy
105(3)
Low Expansion
105(1)
Magnetically Soft Iron
105(2)
Permanent Magnet
107(1)
Unclassified
108(1)
Miscellaneous
108(1)
Iron Alloy
108(1)
Antimony
108(1)
Barium
108(1)
Calcium
108(1)
Manganese
108(1)
Potassium
108(1)
Scandium
108(1)
Sodium
108(1)
Strontium
108(1)
Technetium
108(1)
Thallium
109(1)
Nickel
109(2)
Electrical Resistance Nickel
109(1)
Magnetically Soft Nickel
109(1)
Miscellaneous Nickel
109(1)
Nickel
109(2)
Noble
111(1)
Gold
111(1)
Platinum
111(1)
Silver
111(1)
Rare Earth
111(1)
Cerium
111(1)
Lanthanum
111(1)
Thorium
112(1)
Yttrium
112(1)
Refractory
112(3)
Beryllium
112(1)
Chromium
112(1)
Cobalt
112(1)
Halfnium
113(1)
Molybdenum
113(1)
Niobium
113(1)
Rhenium
113(1)
Tantalum
113(1)
Tungsten
113(2)
Vanadium
115(1)
Zirconium
115(1)
Silicon
115(1)
Carbide
115(1)
Steel
115(4)
Alloy
115(1)
Carbon Steel
116(1)
Cast Stainless
116(1)
Wrought Stainless
117(2)
Titanium
119(1)
Titanium
119(1)
Unclassified
120(1)
Zinc
120(1)
Cast
120(1)
Miscellaneous
120(1)
Volume Resistivity at High and Low Temperatures of Higher Resistivity Material Families
121(22)
Actinide
121(1)
Neptunium
121(1)
Plutonium
121(1)
Uranium
121(1)
Lanthanide
122(1)
Dysprosium
122(1)
Erbium
122(1)
Europium
122(1)
Holmium
122(1)
Lutetium
122(1)
Neodymium
123(1)
Praseodymium
123(1)
Samarium
123(1)
Terbium
123(1)
Thulium
123(1)
Magnesium
123(1)
Wrought
123(1)
Miscellaneous Iron Alloy
124(1)
Magnetically Soft Iron
124(1)
Unclassified
124(1)
Miscellaneous
125(3)
Antimony
125(1)
Barium
125(1)
Calcium
125(1)
Manganese
125(1)
Potassium
126(1)
Scandium
126(1)
Sodium
127(1)
Strontium
127(1)
Technetium
127(1)
Nickel
128(3)
Magnetically Soft Nickel
128(1)
Nickel
128(3)
Rare Earth
131(1)
Cerium
131(1)
Lanthanum
132(1)
Thorium
132(1)
Yttrium
132(1)
Refractory
132(6)
Beryllium
132(1)
Chromium
132(1)
Cobalt
133(1)
Halfnium
133(1)
Molybdenum
134(1)
Niobium
134(1)
Rhenium
134(1)
Tantalum
135(1)
Tungsten
136(1)
Vanadium
136(1)
Zirconium
137(1)
Steel
138(3)
Alloy
138(1)
Carbon Steel
138(2)
Wrought Stainless
140(1)
Titanium
141(1)
Titanium
141(1)
Zinc
141(1)
Miscellaneous
141(2)
Thermal Coefficient of Resistivity of Higher Resistivity Material Families
143(4)
Actinide
143(1)
Uranium
143(1)
Aluminum
143(1)
Wrought
143(1)
Copper
143(1)
Miscellaneous
143(1)
Wrought
143(1)
Magnesium
143(1)
Cast
143(1)
Wrought
143(1)
Miscellaneous Iron Alloy
143(1)
Low Expansion
143(1)
Unclassified
143(1)
Miscellaneous
143(1)
Antimony
143(1)
Calcium
143(1)
Sodium
143(1)
Thallium
143(1)
Nickel
144(1)
Electrical Resistance Nickel
144(1)
Magnetically Soft Nickel
144(1)
Nickel
144(1)
Noble
144(1)
Gold
144(1)
Platinum
144(1)
Silver
144(1)
Refractory
144(1)
Beryllium
144(1)
Chromium
144(1)
Cobalt
144(1)
Halfnium
144(1)
Molybdenum
145(1)
Niobium
145(1)
Rhenium
145(1)
Tantalum
145(1)
Tungsten
145(1)
Vanadium
145(1)
Zirconium
145(1)
Steel
145(1)
Alloy
145(1)
Wrought Stainless
145(1)
Titanium
145(1)
Titanium
145(1)
Zinc
145(2)
Miscellaneous
145(2)
Volume Conductivity of Solders and Fusible Links
147(4)
Low melting
147(3)
Bismuth
147(1)
Indium
147(1)
Lead
147(1)
Mercury
148(1)
Tin
148(2)
Noble
150(1)
Gold
150(1)
Volume Resistivity of Solders and Fusible Links
151(4)
Low Melting
151(3)
Bismuth
151(1)
Cadmium
151(1)
Cesium
151(1)
Gallium
151(1)
Indium
151(1)
Lead
152(1)
Lithium
152(1)
Mercury
152(1)
Rubidium
152(1)
Tin
153(1)
Noble
154(1)
Gold
154(1)
Thermal Coefficient of Resistivity of Solders and Fusible Links
155(2)
Low Melting
155(2)
Bismuth
155(1)
Cadmium
155(1)
Cesium
155(1)
Indium
155(1)
Lead
155(1)
Lithium
155(1)
Rubidium
155(1)
Tin
155(2)
Volume Conductivity at Ambient Temperature of Contact Materials
157(12)
Copper
157(1)
Cast
157(1)
Miscellaneous
157(1)
Wrought
157(1)
Noble
158(7)
Gold
158(1)
Palladium
159(1)
Platinum
159(1)
Silver
159(6)
Refractory
165(4)
Cobalt
165(1)
Molybdenum
165(1)
Tantalum
165(1)
Tungsten
165(4)
Volume Resistivity at Ambient Temperature of Contact Materials
169(8)
Copper
169(1)
Cast
169(1)
Wrought
169(1)
Noble
169(3)
Gold
169(1)
Iridium
170(1)
Osmium
170(1)
Palladium
170(1)
Platinum
170(1)
Rhodium
171(1)
Ruthenium
171(1)
Silver
171(1)
Refractory
172(3)
Beryllium
172(1)
Chromium
173(1)
Cobalt
173(1)
Halfnium
173(1)
Molybdenum
173(1)
Niobium
173(1)
Rhenium
174(1)
Tantalum
174(1)
Tungsten
174(1)
Vanadium
175(1)
Zirconium
175(1)
Titanium
175(2)
Titanium
175(2)
Thermal Coefficient of Resistivity of Contact Materials
177(3)
Noble
177(1)
Gold
177(1)
Iridium
177(1)
Osmium
177(1)
Palladium
177(1)
Platinum
177(1)
Rhodium
177(1)
Ruthenium
177(1)
Silver
177(1)
Refractory
177(1)
Beryllium
177(1)
Chromium
177(1)
Cobalt
177(1)
Halfnium
177(1)
Molybdenum
177(1)
Niobium
177(1)
Rhenium
177(1)
Tantalum
177(1)
Tungsten
177(1)
Vanadium
177(1)
Zirconium
177(1)
Titanium
178(2)
Titanium
178(2)
Volume Resistivity at Low and Superconducting Temperatures
180(6)
Aluminum
180(1)
Wrought
180(1)
Copper
180(1)
Wrought
180(1)
Low Melting
181(1)
Cesium
181(1)
Lithium
181(1)
Rubidium
181(1)
Magnesium
181(1)
Wrought
181(1)
Miscellaneous
181(2)
Barium
181(1)
Calcium
182(1)
Manganese
182(1)
Potassium
182(1)
Sodium
182(1)
Strontium
182(1)
Nickel
183(1)
Nickel
183(1)
Noble
183(1)
Gold
183(1)
Palladium
183(1)
Platinum
183(1)
Silver
183(1)
Rare Earth
184(1)
Cerium
184(1)
Lanthanum
184(1)
Thorium
184(1)
Refractory
184(1)
Beryllium
184(1)
Chromium
184(1)
Cobalt
184(1)
Halfnium
184(1)
Molybdenum
184(1)
Tantalum
185(1)
Tungsten
185(1)
Vanadium
185(1)
Zirconium
185(1)
Zinc
185(1)
Miscellaneous
185(1)
Critical Temperature for Superconductors
186(3)
Actinide
186(1)
Protactinium
186(1)
Uranium
186(1)
Aluminum
186(1)
Wrought
186(1)
Lanthanide
186(1)
Lutetium
186(1)
Low Melting
186(1)
Bismuth
186(1)
Cadmium
186(1)
Gallium
186(1)
Indium
186(1)
Lead
186(1)
Mercury
186(1)
Tin
186(1)
Miscellaneous
186(1)
Antimony
186(1)
Arsenic
186(1)
Barium
186(1)
Germanium
186(1)
Phosphorus
186(1)
Technetium
186(1)
Thallium
186(1)
Noble
187(1)
Iridium
187(1)
Osmium
187(1)
Ruthenium
187(1)
Rare Earth
187(1)
Lanthanum
187(1)
Thorium
187(1)
Yttrium
187(1)
Refractory
187(1)
Beryllium
187(1)
Halfnium
187(1)
Molybdenum
187(1)
Niobium
187(1)
Rehenium
187(1)
Tantalum
187(1)
Tungsten
187(1)
Vanadium
187(1)
Zirconium
188(1)
Titanium
188(1)
Titanium
188(1)
Zinc
188(1)
Miscellaneous
188(1)
Critical Fields of Superconductors
189(1)
Low Melting
189(1)
Lead
189(1)
Rare Earth
189(1)
Yttrium
189(1)
Refractory
189(1)
Niobium
189(1)
Vanadium
189(1)
Critical Current Density for Superconductors
190(7)
Low Melting
190(1)
Lead
190(1)
Rare Earth
190(1)
Yttrium
190(1)
Refractory
190(7)
Niobium
190(7)
Relative Permeability (μr) of Magnetically Soft Material Families
197(12)
Cast Iron
197(1)
Miscellaneous
197(1)
Miscellaneous Iron Alloy
197(6)
Magnetically Soft Iron
197(6)
Unclassified
203(1)
Nickel
203(2)
Magnetically Soft Nickel
203(1)
Nickel
204(1)
Refractory
205(1)
Cobalt
205(1)
Steel
205(4)
Alloy
205(1)
Carbon Steel
205(1)
Cast Stainless
205(1)
Wrought Stainless
206(3)
Coercive Force (Hc) of Magnetically Soft Material Families
209(6)
Cast Iron
209(1)
Miscellaneous
209(1)
Miscellaneous Iron Alloy
209(1)
Magnetically Soft Iron
209(1)
Unclassified
210(1)
Nickel
210(1)
Magnetically Soft Nickel
210(1)
Nickel
211(1)
Refractory
211(1)
Cobalt
211(1)
Steel
211(4)
Alloy
211(1)
Carbon Steel
211(1)
Wrought Stainless
211(4)
Peak Induction (Bm, Bmax) Magnetically Soft Material Families
215(4)
Miscellaneous Iron Alloy
215(2)
Magnetically Soft Iron
215(2)
Nickel
217(1)
Nickel
217(1)
Refractory
217(1)
Cobalt
217(1)
Steel
218(1)
Alloy
218(1)
Wrought Stainless
218(1)
Residual Induction (Br) of Magnetically Soft Material Families
219(3)
Copper
219(1)
Wrought
219(1)
Miscellaneous Iron Alloy
219(1)
Magnetically Soft Iron
219(1)
Unclassified
219(1)
Nickel
219(1)
Magnetically Soft Nickel
219(1)
Nickel
219(1)
Refractory
220(1)
Cobalt
220(1)
Tungsten
220(1)
Steel
220(2)
Alloy
220(1)
Carbon Steel
221(1)
Wrought Stainless
221(1)
Curie Temperature (Tc) of Magnetically Soft Material Families
222(3)
Miscellaneous Iron Alloy
222(1)
Low Expansion
222(1)
Magnetically Soft Iron
222(1)
Permanent Magnet
222(1)
Unclassified
222(1)
Nickel
223(1)
Magnetically Soft Nickel
223(1)
Miscellaneous Nickel
223(1)
Nickel
223(1)
Refractory
224(1)
Cobalt
224(1)
Steel
224(1)
Alloy
224(1)
Wrought Stainless
224(1)
Core Loss (Pc) of Magnetically Soft Material Families
225(21)
Miscellaneous Iron Alloy
225(18)
Magnetically Soft Iron
225(18)
Nickel
243(3)
Magnetically Soft Nickel
243(3)
Hysteresis Loss (Wh) of Magnetically Soft Material Families
246(2)
Miscellaneous Iron Alloy
246(1)
Magnetically Soft Iron
246(1)
Nickel
246(1)
Nickel
246(1)
Refractory
246(2)
Cobalt
246(2)
Coercive Force (Hc) of Magnetically Hard Material Families
248(5)
Cast Iron
248(1)
Miscellaneous
248(1)
Ceramic Permanent Magnet
248(1)
Copper
248(1)
Wrought
248(1)
Miscellaneous Iron Alloy
248(3)
Permanent Magnet
248(3)
Noble
251(1)
Platinum
251(1)
Refractory
251(2)
Cobalt
251(1)
Tungsten
252(1)
Peak Induction (Bm, Bmax) of Magnetically Hard Material Families
253(1)
Miscellaneous Iron Alloy
253(1)
Permanent Magnet
253(1)
Refractory
253(1)
Cobalt
253(1)
Residual Induction (Br) of Magnetically Hard Materials Families
254(4)
Ceramic Permanent Magnet
254(1)
Miscellaneous Iron Alloy
254(2)
Magnetically Soft Iron
254(1)
Permanent Magnet
254(2)
Noble
256(1)
Platinum
256(1)
Refractory
256(1)
Cobalt
256(1)
Tungsten
256(1)
Steel
256(2)
Alloy
256(1)
Wrought Stainless
257(1)
Curie Temperature (Tc) of Magnetically Hard Material Families
258(2)
Ceramic Permanent Magnet
258(1)
Miscellaneous Iron Alloy
258(1)
Permanent Magnet
258(1)
Noble
259(1)
Platinum
259(1)
Refractory
259(1)
Cobalt
259(1)
Energy Product (Bd Hd) of Magnetically Hard Material Families
260(4)
Ceramic Permanent Magnet
260(1)
Miscellaneous Iron Alloy
260(1)
Permanent Magnet
260(1)
Noble
261(1)
Platinum
261(1)
Refractory
261(3)
Cobalt
261(3)
Relative Permeability (μr) Paramagnetic and Diamagnetic Material Families
264(3)
Copper
264(1)
Cast
264(1)
Wrought
265(1)
Miscellaneous Iron Alloy
265(1)
Magnetically Soft Iron
265(1)
Nickel
265(1)
Nickel
265(1)
Refractory
265(1)
Cobalt
265(1)
Steel
265(1)
Wrought Stainless
265(1)
Titanium
266(1)
Titanium
266(1)
Susceptibility (κ) Paramagnetic and Diamagnetic Material Families
267(3)
Copper
267(1)
Cast
267(1)
Wrought
267(1)
Nickel
267(1)
Nickel
267(1)
Aluminum
268(1)
Wrought
268(1)
Copper
268(1)
Wrought
268(1)
Lanthanide
268(1)
Neodymium
268(1)
Praseodymium
268(1)
Low Melting
268(1)
Bismuth
268(1)
Cesium
269(1)
Indium
269(1)
Lithium
269(1)
Tin
269(1)
Magnesium
269(1)
Wrought
269(1)
Miscellaneous
269(1)
Antimony
269(1)
Calcium
269(1)
Maganese
269(1)
Phosphorus
269(1)
Silicon
269(1)
Sodium
269(1)
Nickel
269(1)
Nickel
269(1)
Noble
269(1)
Palladium
269(1)
Platinum
269(1)
Silver
269(1)
Rare Earth
269(1)
Lanthanum
269(1)
Refractory
270(1)
Beryllium
270(1)
Chromium
270(1)
Molybdenum
270(1)
Niobium
270(1)
Rhenium
270(1)
Tantalum
270(1)
Tungsten
270(1)
Vanadium
270(1)
Zirconium
270(1)
Titanium
270(1)
Titanium
270(1)
Zinc
270(1)
Miscellaneous
270

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