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High Temp Metals Alloy 49 Iron-Nickel High Permeability Alloy, Bar, After Process Annealed at 1600°F (871°C)
Categories: Metal; Electronic/Magnetic Alloy; Superalloy; Iron Base

Material Notes: 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 circuits in which the frequency is less than 400 cycles per second. Following a low temperature hydrogen anneal at 1300/1400°F (704/760°C), alloy 49 exhibits constant permeability characteristics. Its initial permeability is approximately 500 Gauss. High Permeability "49" alloy resists weather and moisture corrosion to a moderate extent.

High permeability "49" alloy has been used in laminated cores for instrument transformers, magnetic shields and cores for certain electronic and communications devices in which extremely high permeability at low magnetizing forces greatly increases the efficiency and effectiveness of the equipment. Because of its high permeability, it has also been used in solenoid cores in light, sensitive relays that must operate and respond to weak currents that induce low magnetizing forces.

If components are to machined in volume from bar stock, High Permeability "49"-FM, a free-machining grade, is recommended. The standard grade , High Permeability "49" alloy, machines somewhat like the austenitic stainless alloys. It develops gummy chips but does not work harden as rapidly as the stainless alloys. Sulfur-bearing cutting compounds are highly detrimental to the final magnetic properties. Animal lard oil should be used in drilling and machining operations which must be performed at low speeds. Work hardened bars offer the best machining characteristics. Parts should be degreased and cleaned as soon as possible.

Information provided by High Temp Metals.

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Physical PropertiesMetricEnglishComments
Specific Gravity 8.18 g/cc8.18 g/cc
 
Mechanical PropertiesMetricEnglishComments
Hardness, Rockwell B 7575
Tensile Strength, Ultimate 517 MPa75000 psi
Tensile Strength, Yield 159 MPa23000 psi
Elongation at Break 43 %43 %
Reduction of Area 65 %65 %
Modulus of Elasticity 152 GPa22000 ksi
Izod Impact 129 J95.1 ft-lbNotch Status Unknown
 
Electrical PropertiesMetricEnglishComments
Electrical Resistivity 0.0000480 ohm-cm0.0000480 ohm-cmTemperature coefficient = 0.0036/°C (-17.8 to 499°C)
Magnetic Permeability 65006500Initial; B100; per ASTM A596, heat treatment unknown
 <= 75000<= 75000per ASTM A596; heat treatment unknown
Magnetic Coercive Force, Hc 0.040 - 0.070 Oe0.040 - 0.070 Oefrom 10,000 Gauss; per ASTM A596, heat treatment unknown
Magnetic Saturation Flux Density, Bmax 15000 Gauss15000 GaussH-100 Oersted; per ASTM A596; after hydrogen annealing
Magnetic Remanence, Br 9000 Gauss9000 Gaussper ASTM A596; heat treatment unknown
Curie Temperature 450 - 500 °C842 - 932 °F
 
Thermal PropertiesMetricEnglishComments
CTE, linear 8.28 µm/m-°C
@Temperature 25.0 - 204 °C
4.60 µin/in-°F
@Temperature 77.0 - 400 °F
Specific Heat Capacity 0.502 J/g-°C0.120 BTU/lb-°F
Thermal Conductivity 13.0 W/m-K90.2 BTU-in/hr-ft²-°F
Melting Point 1430 °C2600 °F
 
Component Elements PropertiesMetricEnglishComments
Carbon, C <= 0.020 %<= 0.020 %
Iron, Fe >= 51 %>= 51 %As Balance
Manganese, Mn <= 0.50 %<= 0.50 %
Nickel, Ni <= 48 %<= 48 %
Silicon, Si <= 0.35 %<= 0.35 %

Some of the values displayed above may have been converted from their original units and/or rounded in order to display the information in a consistent format. Users requiring more precise data for scientific or engineering calculations can click on the property value to see the original value as well as raw conversions to equivalent units. We advise that you only use the original value or one of its raw conversions in your calculations to minimize rounding error. We also ask that you refer to MatWeb's terms of use regarding this information. Click here to view all the property values for this datasheet as they were originally entered into MatWeb.

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