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residual induction

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Journal Articles
Alloy Digest (1999) 48 (11): Fe-121.
Published: 01 November 1999
... NK Super BR-Core is a soft magnetic material that has low residual induction and low core losses at high frequencies compared with conventional silicon steel sheet. In addition, NK Super Br-Core has high saturation induction. This datasheet provides information on composition and physical...
Journal Articles
Alloy Digest (1966) 15 (10): SA-202.
Published: 01 October 1966
... SIMONDS #81 is a cobalt, tungsten, chromium permanent magnet steel that is capable of developing moderately high coercive force along with high residual induction when it is in the hardened condition. Strong magnetic fields can be achieved with fairly short magnets and the configuration desired...
Journal Articles
Alloy Digest (1994) 43 (1): SS-561.
Published: 01 January 1994
... CARPENTER STAINLESS TYPE 430F SOLENOID QUALITY offers much of the properties of 430 stainless steel, but through composition and processing maintains consistently high magnetic permeability and low residual induction. This datasheet provides information on composition, physical properties...
Journal Articles
Alloy Digest (1959) 8 (11): Co-18.
Published: 01 November 1959
... G-E ALLOY P-6 is a carbon-free permanent magnet material which, when properly heat-treated, exhibits a high residual induction, high permeability, and high hysteresis loss characteristics. This datasheet provides information on composition and physical properties. It also includes information...
Journal Articles
Alloy Digest (1966) 15 (10): Fe-29.
Published: 01 October 1966
... 20-3000~) Electrical resisrivity, ohm-cm x lo- at 2S°C Curie temperature, OC PROPERTIES 0.265 11.3 47 860 Table 1 - TYPICAL MAGNETIC PROPERTlES - Directional Residual induction, Br, gauss 13100 Coercive force, Hc, oersceds T-40 Maximum energy product(Bli,max., gauss-oersteds :500000 Flux density...
Journal Articles
Alloy Digest (1972) 21 (10): Co-66.
Published: 01 October 1972
.... Grades 36 through 38, anisotropic, extruded. Grades 40 through 43, isotropic, pressed. Table 2 - NOMINAL MAGNETIC PROPERTIES OF LODEX MOY Grade Required Magnetizing Force U-4) Oersteds Residual Induction (Br) Gausses 30 6000 4000 31 6000 6250 32 5000 7300 33 5000 8000 36 5000 3400 37 5000 5500 38 5000...
Journal Articles
Alloy Digest (1969) 18 (12): Cu-209.
Published: 01 December 1969
...: Specific gravity Density, Ib/cu.in. Thermal expansion/oC (20-3OOoC) Electrical resistivity, microhm-cm at 250C Electrical conductivity, % IACS PROPERTIES Table 1 -TYPICAL MAGNETIC PROPERTIES-Directional Residual induction Br, gausses 7300 Coercive force Hc, oersteds 260 External energy Bd Hd max. 0.780 x...
Journal Articles
Alloy Digest (2005) 54 (1): Nd-3.
Published: 01 January 2005
..., W/m K 4.8 (2.8) (Btu/(ft h °F)) Specific heat capacity, J/kg K 550 (0.13) (Btu/lb °F) Curie temperature, °C (°F) 360 (680) Temperature coefficient of 0.10 residual induction, % change per °C Temperature coefficient of 0.50 intrinsic coercive force, % change per °C Magnetic residual...
Journal Articles
Alloy Digest (1961) 10 (8): Cu-105.
Published: 01 August 1961
..../cu.in. Specific gravity Thermal coef. expansion/oC x 10-6 Electtical resistivity, microhmsm PROPERTIES 0.311 8.6 14.0 18.0 Table 1 - MAGNETIC PROPERTIES - Wire Residual induction Br, gausses 5400 Coercive force Hc, oersteds 500 Energy product (BdHd) max. gauss-oerstcds 1.3 x 106 Bd, gausses, at (BdHd...
Journal Articles
Alloy Digest (1992) 41 (1): Co-85.
Published: 01 January 1992
...: Density, Ib/cu in. gm/cu cm Electrical resistivity, microhm-cm Curie temperature, C OF Thermal coef. expansion/ C (20 to 300°C) Magnetic properties (annealed) Saturation flux density, gauss Coercive force, oersted Residual induction, gauss Magnetostrictive coefticient at magnetic saturation, inchcslinch...
Journal Articles
Alloy Digest (1966) 15 (4): Fe-27.
Published: 01 April 1966
... - cast Tensile strength, psi 39500 Transverse modulus of rupture, psi 50000 Rockwell hardness C58 Table 2 - TYPICAL MAGNETIC PROPERTIES - cast Peak induction, gauss Peak magnetizing force, oersreds Residual induction, Br, gauss Remanence, gauss Maximum energy product, BH max., gauss-oersteds Remanenc...
Journal Articles
Alloy Digest (1972) 21 (9): Co-65.
Published: 01 September 1972
...-cm (at 2SoC) 50 Magnetic properties See Table 1 and Figure 1 PROPERTIES Table 1 - MAGNETIC PROPERTIES* Residual induction (Br), gausses 8600 Induction coercive force (Hc), oersteds 7000 Intrinsic coercive force (Hci), oersteds Greater than 10000 Energy product (BH) max, megagauss-oersteds 18.0 Recoil...
Journal Articles
Alloy Digest (1956) 5 (6): SA-44.
Published: 01 June 1956
...., oersteds 1,000 Peak induction B max., gausses 13,000 14,800 Residual induction Br min., gausses Hd point, oersteds ~~s&90500 9,500 148-162 Saturation 4 pi Js, gausses Curie point, OC. Saturation magnetostriction (pi s x 106) Rockwell hardness (quenched ) Bd, gausses 16.300 27 C60-65 C62 5,900-6,500 5,850...
Journal Articles
Alloy Digest (2004) 53 (4): Nd-1.
Published: 01 April 2004
... heat capacity, J/kg K 550 (0.13) (Btu/lb °F) Curie temperature, °C (°F) 360 (680) Magnetic residual induction, 1.14 1.22 Br, T (G) (11,400 12,200) Temperature coefficient of residual 0.10 induction, % change per °C Coercive force, Hcb, A/m (Oe) 830,000 890,000 (10,400 11,200) Intrinsic coercive...
Journal Articles
Alloy Digest (1963) 12 (2): Fe-22.
Published: 01 February 1963
... Residual induction Br, gausses 9000 Coercive force Hc, oersteds 240 Peak magnetizing force required Hp, oersteds 1000 Peak energy product, (BdHd) max. x 106 0.9 Permance coefficient, (B/H) at (BdHd) max. 40 Induction, Bd at (BdHd) max., gausses 6000 Mmf per unit length, Hd at (BdHd) max., oersteds 150...
Journal Articles
Alloy Digest (1988) 37 (10): Fe-86.
Published: 01 October 1988
... (Parallel to M) (Perpendicular to M) Electrical resistivity. microhm-cm (At 25°C) *Dependent on operating slope and duty cycle. Magnetic Characteristics: Peak energy density, B,H,, MGG WI@ Residual induction Br, Gauss mT Coercive force Hc, Gersted Intrinsic coercive force Hci, Gersted Magnetizing force I...
Journal Articles
Alloy Digest (2006) 55 (7): SS-968.
Published: 01 July 2006
...) 11.8 (6.6) Resistivity at 21 °C (70 °F), . m 0.778 (468) ( circular-mil/ft) Saturation flux density, G 17,000 Coercivity, Oe 1.8 Magnetic permeability 2900 Residual induction, G 11,400 See also Fig. 1. Mechanical Properties: (Tensile properties typical, as annealed for optimum magnetic properties...
Journal Articles
Alloy Digest (2004) 53 (12): Nd-2.
Published: 01 December 2004
... coefficient of residual 0.10 induction, % change per °C Temperature coefficient of intrinsic 0.50 coercive force, % change per °C Magnetic residual induction (Br), 1.22 1.28 T (G) (12,200 12,800) Coercive force H(cb), A/m (Oe) 870,000 940,000 (10,900 11,800) Intrinsic coercive force (Hci), 1,030,000...
Journal Articles
Alloy Digest (2016) 65 (2): CS-196.
Published: 01 February 2016
..., MPa (ksi) Sintering temperature, °C (°F) Sintered density, kg/m3 (lb/in.3) Relative maximum permeability (G/Oe) Maximum flux density, T (G) Residual induction, T (G) Coercive force, A/m (Oe) Ancorsteel 1000B 415 (60) 1120 (2048) 6790 (0.244) 2100 1.03 (10300) 0.90 (9000) 170 (2.14) 1260 (2300) 6800...
Journal Articles
Alloy Digest (1967) 16 (9): Co-52.
Published: 01 September 1967
... 17500 Residual induction, Br, gauss 15000 6000 Coercive Force, Hc, oersteds 5.00 9.0 Permeability, max. 1700 400 (Magnetostriction coefficient at Hz100 is approximately 60x 10-G) Table 2 - EXPANSION DATA Temperature from 25"Cto Annealed Expansion in/in x 10e5 Coef. Expansion in/in/% x 10-O Unannealed...