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thermal gradients resistance

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Journal Articles
Alloy Digest (2001) 50 (6): SS-824.
Published: 01 June 2001
... UCI-390 is the casting grade equivalent to alloy UNS N08811. The alloy is stable at high temperatures, weldable, and resistant to thermal gradients. UCI-390 is widely used in thermal shock applications. It is corrosion resistant in air, oxidizing and reducing flue gases, carburizing gases, salts...
Journal Articles
Alloy Digest (1952) 1 (2): SS-2.
Published: 01 October 1952
... temperatures and withstands thermal shock. This datasheet provides information on composition, physical properties, hardness, elasticity, and tensile properties as well as fracture toughness and creep. It also includes information on high temperature performance and corrosion resistance as well as casting...
Journal Articles
Alloy Digest (1994) 43 (4): Ni-449.
Published: 01 April 1994
...: Steel Founders Society Copyright © ASM International® 1996 1996 ASM International ACI Type HW chemical composition corrosion-resistant alloys creep properties elasticity high-temperature alloys joinability machinability oxidation resistance physical properties thermal properties...
Journal Articles
Alloy Digest (1966) 15 (11): SS-188.
Published: 01 November 1966
... range of 1200-18000F and is resistant co stress cracking when temperature gradients or thermal cycles are involved. Forms Available: Wrought ribbon and wire. Applications: Main application is for flexible woven or spiraled high temperature brazing belts. Also heat treating, annealing and carburixing...
Journal Articles
Alloy Digest (1968) 17 (2): SS-205.
Published: 01 February 1968
.... Molybdenum 0.90-1.20 Chromium 8.0-10.0 IIOtl Remainder Physical Constants: (at 70°F) Density, lb, cu.in. Specific heat, Btu/lb, OF Electrical resistance, microhms:cm3 Melting point, F (approx.) Thermal conductivity, Btu!ft2/ftj°F,;hr at 212°F at 1000°F Thermal coef. expansionF x 10m6 70- 212°F 70-1200°F...
Journal Articles
Alloy Digest (1961) 10 (10): Ni-67.
Published: 01 October 1961
... Deosity, Ib./cu.io. Melting point, OF Specific heat, Btu/lb./OF (77-212OF) Thenual coef. expansion/OF x 10d IOO- 200°F 70-14OOOF Thermal conductivity, Btu/ft2/io/hr/OF Modulus of elasticity, psi x lo6 Magnetic traosformatioo temperature, OF Electrical resistivity, ohms/cmf PROPERTIES Table 1 - TYPICAL...
Journal Articles
Alloy Digest (1997) 46 (8): SS-685.
Published: 01 August 1997
... thermal gradient. Forms Available: Castings. Applications: UCI-170 is used widely in the steel and vitreous enamel indus- tries in air and flue-gas environments for cast components and parts such as carrier fingers, enameling-furnace fixtures. furnace skids for slabs and bars, radiant tubes, and stack...
Journal Articles
Alloy Digest (1959) 8 (4): SS-86.
Published: 01 April 1959
... accessible for replacement, fully sup- ported or rotating, and of simple design with little or no thermal gradient. (Most of the data and information were taken from the publications of the Ahoy Casting Institute.) Weldability: Type HI castings can be welded by metal-arc, inert-gas arc, and oxyacetylene gas...
Journal Articles
Alloy Digest (1960) 9 (12): Ni-63.
Published: 01 December 1960
... Silicon Carbon Copper Maneanese 14.00-17.00 11.0 max. 5.0-6.0 0.10-0.40 1.25 max. 1.50 max. Physical Constants: Specific gravity 8.06 Density, Ib./cu. in. 0.292 Melting point, OF 2540 Specific beat (77-212OF), BTU/lb./OF 0.109 Thermal coef. expansion/OF x lOA (70-14OOOF) 9.20 Thermal conductivity, cal/cm2...
Journal Articles
Alloy Digest (1953) 2 (3): SS-6.
Published: 01 March 1953
... at temperatures in the range of 1200-1800°F and is resistant to cracking when temperature gradients or thermal q&s are involved. Carbon has a marked in&ence on room temperature ductility, due to the increasing amounts of free carbide in the micro-structure as the carbon content increases. Aging 48...
Journal Articles
Alloy Digest (1956) 5 (2): SS-40.
Published: 01 February 1956
... and 2100 deg. F. It hasexotptionaiiyhighcnmpstrengthattempemmresinthe range 1200-1800 deg F, and is resistant m cracking when taupaatute gradients or thermal cycles are involved. It will withstand prolonged heating in air ar temperatures up m 1900 deg. F. without excessive scaIing. In reducing or neu...
Journal Articles
Alloy Digest (1977) 26 (6): SS-341.
Published: 01 June 1977
.... expansion See Table 1 Chromium Thermal conductivity See Table 2 Nickel :;I;; Electrical resistivity, microhm-cm (At 700F) Molybdenum 0.5 max.* Modulus of elasticity, psi (Tension) 29 xglYo .8 Iron Remainder Magnetic permeability 1.01 *Molybdenum is not added intentionally. PROPERTIES Table 1 - LINEAR...
Journal Articles
Alloy Digest (1962) 11 (12): Ni-77.
Published: 01 December 1962
..., lbcu.in. Soecific bear. BWlb. oF (77-212OF) E-lecrrical reiiscivity, miciobm-cm3 (2OoC) Thermal coef. expansion/OF x 10-6 lOO- 2000F loo-12000F lOO-18OOoF Tbennal conducriviry, Btu/fL2/ft/br/oF at 212oF ar 7520F at 1500oF Modulus of elasticity, psi ar R.T. in tension in compression in torsion Magnetic...
Journal Articles
Alloy Digest (1982) 31 (6): SS-410.
Published: 01 June 1982
...°C) Thermal coef. expansion Thermal conductivity Electrical resistance, microhm-cm (At 70°F or 2l C) Modulus of elasticity, psi (Tension) Magnetic permeability 0.283 7.83 2500 0.1 I See Table I See Table 2 99.0 27x106 I.10 *Molybdenum is not added intentionally. PROPERTIES Table 1 - LINEAR THERMAL...
Journal Articles
Alloy Digest (1954) 3 (3): Ni-9.
Published: 01 March 1954
... max. 0.15 mar. 0.015 -max. lOO-1400°F Thermal c~ac$ct+cy, cal/csec/~C/ __ . . Modulus ot eiastiay in tension in compression 3 1.000.000 3 1,OOo.oOO 11 .ooo,ooo -40 in torsion l Trade-mark of The International Nickel Company, Inc. Magneric transformation temperature, OF PROPERTlES Table 1 - MECHANICAL...
Journal Articles
Alloy Digest (1977) 26 (2): Cu-326.
Published: 01 February 1977
... Aluminum 9 Iron 3 Other elements - Range 86.0 min. 8.5-9.5 2.54.0 1 .O max. Physical Constants: (Approximate) Density, lb/cu in. Specific gravity Solidification range, oF (Liquidus) (Solidus) Specific heat, Btu/lb/oF (At 680F) Thermal coef. expansion/oF (68-5720F) Thermal conductivity, Btu/ft2/ft/hr/oF (At...
Journal Articles
Alloy Digest (1978) 27 (8): Cu-359.
Published: 01 August 1978
...) Nominal Range Copper Aluminum Iron Nickel Manganese 81 11 4 4 78.0 min. 10.0-l 1.5 3.0-5.0 3.0-5.5 3.5 max. Density, Ib/cu in. (At 680F) Specific gravity Solidification range, oF (Liquidus) (Solidus) Specific heat, Btu/lb/oF (At 680F) Thermal coef. expansion/OF 68-5720F) 1 Thermal conductivity, Btu/ft /ft...
Journal Articles
Alloy Digest (1974) 23 (8): Cu-283.
Published: 01 August 1974
... range, oF (Liquidus) (Solidus) Specific heat, Btu/lb/oF (At 680F) Thermal coef. expansion/OF 68-2120F) 1 Thermal conductivity, Btu/ft /ft/hr/oF (At 680F) Electrical resistivity, Ohm/& mil/ft (At 680F) Electrical conductivity,* % IACS (At 680F) Modulus of elasticity, psi Modulus of rigidity, psi *Volume...
Journal Articles
Alloy Digest (1975) 24 (2): Cu-292.
Published: 01 February 1975
.... 0.50 max. Density, ib/cu in. Specific gravity Solidification range, oF (Liquidus) (Solidus) Specific heat, Btu/lb/oF (At 680F) Thermal coef. expansion (68-5720F) Thermal conductivity, Btu/ft2/ft/hr/oF (At 680F) Electrical resistivity, Ohrn/cir mil/ft (At 680F) Electrical conductivity,* % IACS (At 680F...
Journal Articles
Alloy Digest (1982) 31 (9): Cu-444.
Published: 01 September 1982
...) Specific gravity Solidification range, F (Liquidus) (Solidus) Specific heat, Btu/lb/ F (At 68°F) Thermal coef. expansion/ F (68-572°F) 0.270 7.47 1930 1900 0.09 9.0 x 10-6 Thermal conductivity, Btu/ft2/ft/hr/ F (At 68OF) 23 Electrical resistivity, microhm-cm (At 68°F) 19 Electrical conductivity,* % IACS...