Electrical Properties | Metric | English | Comments |
---|---|---|---|
Magnetic Coercive Force, Hc | 0.040 - 0.070 Oe | 0.040 - 0.070 Oe | from 10,000 Gauss; per ASTM A596, heat treatment unknown |
High Temp Metals Alloy 49 Iron-Nickel High Permeability Alloy, Bar, Cold Drawn High Permeability "49" alloy is a 48% nickel-iron alloy which has a saturation flux density of approximately 15,000 Gauss after hydrogen annealing. Hysteresis loss is very low in either DC or AC cir.. |
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Magnetic Coercive Force, Hc | 0.040 - 0.070 Oe | 0.040 - 0.070 Oe | from 10,000 Gauss; per ASTM A596, heat treatment unknown |
High Temp Metals Alloy 49 Iron-Nickel High Permeability Alloy, Bar, Hydrogen Annealed at 2150°F (1177°C) High Permeability "49" alloy is a 48% nickel-iron alloy which has a saturation flux density of approximately 15,000 Gauss after hydrogen annealing. Hysteresis loss is very low in either DC or AC cir.. |
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Magnetic Coercive Force, Hc | 0.040 - 0.070 Oe | 0.040 - 0.070 Oe | from 10,000 Gauss; per ASTM A596, 0.025 - 0.125 in. thickness; heat treatment unknown |
High Temp Metals Alloy 49 Iron-Nickel High Permeability Alloy, Strip, Cold-Rolled High Permeability "49" alloy is a 48% nickel-iron alloy which has a saturation flux density of approximately 15,000 Gauss after hydrogen annealing. Hysteresis loss is very low in either DC or AC cir.. |
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Magnetic Coercive Force, Hc | 0.040 - 0.070 Oe | 0.040 - 0.070 Oe | from 10,000 Gauss; per ASTM A596, 0.014 in. thickness; heat treatment unknown |
High Temp Metals Alloy 49 Iron-Nickel High Permeability Alloy, Strip, Cold-Rolled High Permeability "49" alloy is a 48% nickel-iron alloy which has a saturation flux density of approximately 15,000 Gauss after hydrogen annealing. Hysteresis loss is very low in either DC or AC cir.. |
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Magnetic Coercive Force, Hc | 0.040 - 0.070 Oe | 0.040 - 0.070 Oe | from 10,000 Gauss; per ASTM A596, 0.014 in. thickness; heat treatment unknown |
High Temp Metals Alloy 49 Iron-Nickel High Permeability Alloy, Strip, Formed and Deep Draw Quality High Permeability "49" alloy is a 48% nickel-iron alloy which has a saturation flux density of approximately 15,000 Gauss after hydrogen annealing. Hysteresis loss is very low in either DC or AC cir.. |
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Magnetic Coercive Force, Hc | 0.040 - 0.070 Oe | 0.040 - 0.070 Oe | from 10,000 Gauss; per ASTM A596, 0.025 - 0.125 in. thickness; heat treatment unknown |
High Temp Metals Alloy 49 Iron-Nickel High Permeability Alloy, Strip, Formed and Deep Draw Quality High Permeability "49" alloy is a 48% nickel-iron alloy which has a saturation flux density of approximately 15,000 Gauss after hydrogen annealing. Hysteresis loss is very low in either DC or AC cir.. |
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Magnetic Coercive Force, Hc | 0.040 - 0.070 Oe | 0.040 - 0.070 Oe | from 10,000 Gauss; per ASTM A596, heat treatment unknown |
High Temp Metals Alloy 49 Iron-Nickel High Permeability Alloy, Bar, After Process Annealed at 1600°F (871°C) High Permeability "49" alloy is a 48% nickel-iron alloy which has a saturation flux density of approximately 15,000 Gauss after hydrogen annealing. Hysteresis loss is very low in either DC or AC cir.. |
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Magnetic Coercive Force, Hc | 0.040 - 0.070 Oe | 0.040 - 0.070 Oe | from 10,000 Gauss; per ASTM A596, heat treatment unknown |
High Temp Metals Alloy 49 Iron-Nickel High Permeability Alloy, Bar, Cold Drawn High Permeability "49" alloy is a 48% nickel-iron alloy which has a saturation flux density of approximately 15,000 Gauss after hydrogen annealing. Hysteresis loss is very low in either DC or AC cir.. |
|||
Magnetic Coercive Force, Hc | 0.040 - 0.070 Oe | 0.040 - 0.070 Oe | from 10,000 Gauss; per ASTM A596, heat treatment unknown |
High Temp Metals Alloy 49 Iron-Nickel High Permeability Alloy, Bar, Hydrogen Annealed at 2150°F (1177°C) High Permeability "49" alloy is a 48% nickel-iron alloy which has a saturation flux density of approximately 15,000 Gauss after hydrogen annealing. Hysteresis loss is very low in either DC or AC cir.. |
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Magnetic Coercive Force, Hc | 0.040 - 0.070 Oe | 0.040 - 0.070 Oe | from 10,000 Gauss; per ASTM A596, 0.025 - 0.125 in. thickness; heat treatment unknown |
High Temp Metals Alloy 49 Iron-Nickel High Permeability Alloy, Strip, Cold-Rolled High Permeability "49" alloy is a 48% nickel-iron alloy which has a saturation flux density of approximately 15,000 Gauss after hydrogen annealing. Hysteresis loss is very low in either DC or AC cir.. |
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Magnetic Coercive Force, Hc | 0.040 - 0.070 Oe | 0.040 - 0.070 Oe | from 10,000 Gauss; per ASTM A596, 0.014 in. thickness; heat treatment unknown |
High Temp Metals Alloy 49 Iron-Nickel High Permeability Alloy, Strip, Cold-Rolled High Permeability "49" alloy is a 48% nickel-iron alloy which has a saturation flux density of approximately 15,000 Gauss after hydrogen annealing. Hysteresis loss is very low in either DC or AC cir.. |
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Magnetic Coercive Force, Hc | 0.040 - 0.070 Oe | 0.040 - 0.070 Oe | from 10,000 Gauss; per ASTM A596, 0.014 in. thickness; heat treatment unknown |
High Temp Metals Alloy 49 Iron-Nickel High Permeability Alloy, Strip, Formed and Deep Draw Quality High Permeability "49" alloy is a 48% nickel-iron alloy which has a saturation flux density of approximately 15,000 Gauss after hydrogen annealing. Hysteresis loss is very low in either DC or AC cir.. |
|||
Magnetic Coercive Force, Hc | 0.040 - 0.070 Oe | 0.040 - 0.070 Oe | from 10,000 Gauss; per ASTM A596, 0.025 - 0.125 in. thickness; heat treatment unknown |
High Temp Metals Alloy 49 Iron-Nickel High Permeability Alloy, Strip, Formed and Deep Draw Quality High Permeability "49" alloy is a 48% nickel-iron alloy which has a saturation flux density of approximately 15,000 Gauss after hydrogen annealing. Hysteresis loss is very low in either DC or AC cir.. |
|||
Magnetic Coercive Force, Hc | 0.040 - 0.070 Oe | 0.040 - 0.070 Oe | from 10,000 Gauss; per ASTM A596, heat treatment unknown |
High Temp Metals Alloy 49 Iron-Nickel High Permeability Alloy, Bar, After Process Annealed at 1600°F (871°C) High Permeability "49" alloy is a 48% nickel-iron alloy which has a saturation flux density of approximately 15,000 Gauss after hydrogen annealing. Hysteresis loss is very low in either DC or AC cir.. |