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Carpenter Silicon Core Iron B

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Journal Articles
Alloy Digest (1990) 39 (4): Fe-90.
Published: 01 April 1990
... Carpenter Silicon Core Iron "B" is melted in electric arc furnaces to exacting chemical specifications, and carefully controlled in rolling and annealing practices to produce a fine grained uniform quality magnetic core alloy. Silicon Core Iron "B" is not recommended for components which must...
Journal Articles
Alloy Digest (1998) 47 (1): Fe-116.
Published: 01 January 1998
... Carpenter Silicon Core Iron B-FM is melted in electrical arc furnaces to exacting chemical specifications and is carefully controlled in rolling and annealing practices to produce a fine-grained uniform quality magnetic core alloy. Silicon Core Iron B-FM has improved machining characteristics over...
Journal Articles
Alloy Digest (1994) 43 (12): Fe-108.
Published: 01 December 1994
... Carpenter Silicon Core Iron A-FM, melted to exacting chemical specifications and carefully process controlled to produce a fine-grained uniform quality magnetic core iron. This alloy exhibits improved machining characteristics over Silicon Core Iron A (Alloy Digest Fe-94, January 1991...
Journal Articles
Alloy Digest (1991) 40 (1): Fe-94.
Published: 01 January 1991
... Carpenter Silicon Core Iron A, melted to exacting chemical specifications and carefully process controlled is a uniform quality magnetic core iron. This datasheet provides information on composition, physical properties, hardness, and tensile properties. It also includes information on heat...
Journal Articles
Alloy Digest (1986) 35 (12): Fe-74.
Published: 01 December 1986
... CARPENTER SILICON CORE IRON C is melted in an electric furnace to exacting chemical specifications. Also it is carefully controlled by tool-steel practice in rolling and annealing to produce a fine-grained magnetic core iron of uniform quality. It is especially well adapted for making components...
Journal Articles
Alloy Digest (1968) 17 (11): Fe-36.
Published: 01 November 1968
... Silicon Core Iron is a low carbon silicon electric furnace melted iron recommended for direct current and alternating current magnetic applications in solenoids, armatures and other flux carrying parts operating at high saturations. It is furnished in five grades: A, A-FM, B, B-FM, and C...
Journal Articles
Alloy Digest (1994) 43 (5): SA-474.
Published: 01 May 1994
... are covered under U.S. Patent Number 5.091.024. Chrome Core@ is a registered trademark of Carpenter Technology Corp. Chemical Composition, Wt, %: Chrome Core 12 Carbon 0.025 Manganese 0.5 Sulfur 0.025 Silicon 0.5 Chromium 12.00 Molybdenum 0.4 Iron Balance Chrome Core 12-FM 0.025 0.5 0.35 0.5 12.00 0.4 Balance...
Journal Articles
Alloy Digest (1993) 42 (12): Fe-103.
Published: 01 December 1993
... Expansion 42 Dumet Core Rod, a Rockwell hardness of about B 90 is suggested Where any sharp bends are involved in forming finished parts from strip or rods, a hardness of not over Rockwell B 93 is suitable. Grinding: A silicon carbide wheel is desirable, preferably a soft wheel which will wear without...
Journal Articles
Alloy Digest (1994) 43 (1): Fe-104.
Published: 01 January 1994
... is an iron with very low interstitials and other elements present to provide good direct current soft magnetic properties. Used in magnetic circuit cores. Chemical Composition, Wt, %: Carbon 0.02% max. Manganese 0.12% Silicon 0.12% Phosphorus 0.010% SUlftU 0.010% Chromium 0.20% Nickel 0.08% Vanadium 0.05...
Journal Articles
Alloy Digest (1977) 26 (3): SS-337.
Published: 01 March 1977
... Carpenter 430FR Solenoid Quality stainless steel is a ferritic chromium-iron alloy developed especially for A.C. and D.C. magnetic circuit applications such as solenoid valve core components and electromagnetic relay cores. The electrical resistivity of 430FR is approximately 25% higher than other...
Journal Articles
Alloy Digest (1989) 38 (10): Ni-375.
Published: 01 October 1989
.... *HyMu 80 and HIPERNOM are registered trademarks of Carpenter Technology Corp. Composition: Carbon Manganese Silicon Molybdenum Nickel Iron Type Analysis 0.02 0.50 0.35 4.20 80.00 Remainder Table 1 -MEAN COEFFICIENT OF THERMAL EXPANSION Temperature Coefficient Range of Expansion OF lO+F -103 to 77 6.0...
Journal Articles
Alloy Digest (2007) 56 (9): SS-996.
Published: 01 September 2007
... composition Chrome Core 13-XP corrosion-resistant alloys elasticity heat treatability joinability physical properties tensile properties workability Chemical Composition, wt (Type Analysis) Carbon 0.03 max Phosphorus 0.030 max Silicon 1.20 1.80 Molybdenum 0.50 1.00 Manganese 0.50 max Sulfur 0.200...
Journal Articles
Alloy Digest (1969) 18 (8): Fe-38.
Published: 01 August 1969
... cores. Composition: Carbon Manganese Silicon Aluminum Iron 12% Alfenol 16% Alfenol 0.015 max. 0.015 max. 0.030 max. 0.030 max. 0.050 max. 0.050 mas. 11.5-12.5 15.5-16.5 Remainder Remainder Physical Constants: 12% 16 r Specitic gravit) 6.8 Density. Ib/cu.in. 0.25 El Thermal coef. espansion/oF (95-392oF...
Journal Articles
Alloy Digest (1964) 13 (5): Fe-25.
Published: 01 May 1964
... PERMEABILITY 49 Engineering Alloys Digest, Inc. Upper Montclair, Nn Jersey (High Permeability Alloy) CARPENTER HIGH PERMEABILITY electrical equipment. Composition: Carbon hlanganese Silicon Nickel Iron 0.05 0.50 0.35 49.0 Remainder 49 is an iron-nickel alloy of high magnetic permeability recommended...
Journal Articles
Alloy Digest (1988) 37 (2): Co-83.
Published: 01 February 1988
... having lower permeabilities in the same magnetic field range. *CARPENTER and HIPERCO are registered trademarks of Carpenter Technology Corporation. Composition: Carbon Manganese Silicon Cobalt Vanadium Iron Type Analysis 0.01 0.05 0.05 48.75 1.90 Remainder Physical Constants: Density, lb/cu in. 0.295...
Journal Articles
Alloy Digest (1991) 40 (5): SA-37.
Published: 01 May 1991
... to 5 inches thick. Additionally, the steel develops high wear resistant case characteristics when carburized and hardened. Carpenter No. 158 Alloy is a registered trademark of Carpenter Technology Corporation. Composition: Carbon Manganese Silicon Chromium Nickel Iron Type Analysis 0.10 0.50 0.30 1.50...
Journal Articles
Alloy Digest (1963) 12 (6): SS-144.
Published: 01 June 1963
... Chromium Aluminum Silicon Manganese Iron 0.15 max. 12.00-14.00 3.25-4.50 0.50 max. 0.30-0.60 Remainder Physical Constants: (at 68oF) Specific gravity Density, lb/cu.in. Specific heat, Btu/lb/oF ( 32-212OF) Specific elect. resist., ohms/cmf Modulus of elasticity, psi x 106 Thermal coef. expansion/OF x lo-6...
Journal Articles
Alloy Digest (1988) 37 (12): TS-494.
Published: 01 December 1988
... 7.79 Mmw= 0.40 Specific heat, Btu/lbPF 0.11 Silicon 1.00 Thermal coef. expansionPF (68-2 12°F) 6.04 x 106 Molybdenum 0.50 (68-752OF) 7.54 x 106 Iron Remainder (68- 1292V) 8.12 x lad PC (20-100°C) 10.9 x 104 (20400°C) 13.6 x 104 (20-7OO C) 14.6 x lad Modulus of elasticity, psi 28-30 x 106 PROPERTIES...
Journal Articles
Alloy Digest (1952) 1 (4): CI-1.
Published: 01 December 1952
... slowly. rdxat to WWF, hold for 5 hours, cool illair. HARDENING: Hat to 1650*F, quench in oil and tanpatodesiredhardnw. DRAWING: Hat to 127043OO F, hold at tanpm- turc for several hours and air cool. Castability: Noduioy iron can combine a hard chilled surface with a ductiic core. It has castability...
Journal Articles
Alloy Digest (1999) 48 (11): Co-107.
Published: 01 November 1999
... loss. Hiperco is a registered trademark of Carpenter Technology Corporation. Chemical Composition, wt (Typical Analysis) Carbon 0.004 Manganese 0.05 Silicon 0.05 Cobalt 48.75 Vanadium 2.00 Iron Balance Physical Properties: Specific gravity 8.12 Density, kg/m3 (lb/in.3) 8120 (0.293) Electrical...