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thermal stress resistance

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Journal Articles
Alloy Digest (1971) 20 (4): SS-253.
Published: 01 April 1971
... Augusr 11. 1970 Composition: Physical Constants: Carbon Manganese Phosphorus Sulfur Silicon Nickel Chromium Iron Typical 0.06 1.50 0.007 0.009 1.90 18.00 18.40 Remainder Density, Ib/cu in. Specific gravir) Thermal coei. espansion OF (31 oF) (3I-6000F) I 32- I OOOOF I I 32.11OOoF I f32-1800OF1 Electrical...
Journal Articles
Alloy Digest (1964) 13 (4): Ti-39.
Published: 01 April 1964
.... 0.2 max. 0.3 max. Remainder Physical Constants: (Annealed) Density, Ib/cu.in. Thermal conductivitv. Btu/ft2/ft/hr/OF Specific heat, Btu/lb]oF Electrical resistivity, microhm-cm Melting temperature, oF (approx.) Thermal coef. expansion/OF x lo-6 RT to 2000F R-I to 6OOoF RT to 1OOOoF Modulus of...
Journal Articles
Alloy Digest (1960) 9 (5): CS-12.
Published: 01 May 1960
... 0.15/0.35 for applications re- quiring su rior machinability. The leaded version is esignated as Jakase 1OOL. $ Pbyrical Constants: specific gravity Density, Ib./a~.in. Thermal cod. expansion/ F. x lad Modulus of elast~citg, psi x 106 Modulus of rigidity, psi x 106 C. F. Bar Size. In. PROPERTIES Table...
Journal Articles
Alloy Digest (2017) 66 (3): Cu-858.
Published: 01 March 2017
... physical properties tensile properties workability thermal properties UNS C19040 Kobelco Alloy CAC 5 has higher stress-relaxation strength. The alloy is nominally Cu-0.8Ni-1.2Sn-0.07P. CAC 5 has the good strength of C52100 and C26000. Chemical Composition, wt (Nominal) Nickel 0.8 Tin 1.2 Phosphorus...
Journal Articles
Alloy Digest (1972) 21 (8): SS-278.
Published: 01 August 1972
... max 25.0-27.0 4.754.00 2.75-3.25 I .75-2.25 Remainder Physical Constants: Density, Ib/cu in. 0.280 Specific gravity 7.75 Melting point, oF (Approximate) 2700 Thermal coef. expansion/OF See Table 1 Specific heat, Btu/lb/oF (700F) 0.11 Magnetic permeability Ferromagnetic Modulus of elasticity, tension...
Journal Articles
Alloy Digest (1967) 16 (12): SS-203.
Published: 01 December 1967
... resisrivity ar 2oOC, ohms/cir.mil.fr. microhms-cm Temperature coefficienr (20-115oOC) Melting point (appror OC Thermal coef. expansion, in/i@C 20-loOO c 20-lloo c Increase in resistance in function of remperature (20-l 150°C), % Heae conducciviry at 2oOC., cal/cm/cm2/sec/ C PROPERTIES 7.25 0.262 0.107 812 135...
Journal Articles
Alloy Digest (1970) 19 (5): SS-238.
Published: 01 May 1970
.... Specific heat, cal/g/oC Electrical resistivity at 68oF, ohms per c.m.it. microhms per cc Temperature coefficient of resistivity (68 - 2505oF) per oF Melting point. oF Coefficient of thermal expansion/OF 68 - 9330F 68 - 1832oF Heat conductivity at 680F. calicm.sec. oC PROPERTIES Table 1 - TYPICAL ROOM...
Journal Articles
Alloy Digest (1955) 4 (9): SS-34.
Published: 01 September 1955
...-100X.) per C Melting point (approx C Thermal coef. expansion. in/in/X 725 0.262 0.107 812 135 0.00002 1505 Increase in resistance in function of renlyture (20-1150°c), % Heat condaaivity at 20X, Cal/an/cm /sec/ C PROPERTIES Table 1 - TYPICAL MECHANICAL PROPERTIES Annealed Cold Worked Tensile strengdx...
Journal Articles
Alloy Digest (1977) 26 (10): Cu-341.
Published: 01 October 1977
... CHASE 14310 is a high-conductivity copper with excellent resistance to thermal softening. It is a deoxidized, electronic grade of copper with excellent formability, weldability and plateability. It is available in strip form and has a wide range of applications. This datasheet provides information...
Journal Articles
Alloy Digest (1958) 7 (4): Ni-41.
Published: 01 April 1958
... temperature service. Physical Constants: Specific gravity Den Ibku. in. Thermal cod. expansion/ C. (70-1000°C.) x IO-6 Suciiic heat. cal/n/ C. at 2O C. Thermal codducky, warcs~cm~/cm/ C. ar 100°C. Elecrrical resisriviry, michrom-cm at 20°C. Temp. coef. elect. resist/ C (20-100°C.) Ohms/Ohm Modulus of...
Journal Articles
Alloy Digest (1992) 41 (6): Ni-292.
Published: 01 June 1992
... Manganese 0.5 Molybdenum 9.0 Silicon 0.5 Tungsten 0.6 Nickel Remainder Physical Constants: Density, lb/in3 Poisson s Ratio, RT Specific heat, Btu/lb/OF (70°F) Thermal coef. of expansion Thermal conductivity PROPERTIES Table 1 - THERMAL COEFFICIENT OF LINEAR THERMAL EXPANSION C 10-w F lOF 20/100 13.3...
Journal Articles
Alloy Digest (2011) 60 (5): Cu-798.
Published: 01 May 2011
... properties workability thermal properties UNS C15000 DATA ON WORLDWIDE METALS AND ALLOYS Copyright © 2011, ASM International®. All rights reserved. Data shown are typical, not to be used for specification or final design. Published by: ASM International, Materials Park, OH 44073-0002, 440-338-5151...
Journal Articles
Alloy Digest (2009) 58 (4): Cu-768.
Published: 01 April 2009
... treatability joinability machinability physical properties tensile properties Wieland-F12 workability thermal properties WIELAND-F12 (Resistance Alloy) Wieland-F12 is a resistance alloy with a low coefficient of electrical resistance. Chemical Composition, wt (Nominal) Manganese 12 Nickel 2 Copper...
Journal Articles
Alloy Digest (1973) 22 (10): Ni-196.
Published: 01 October 1973
... max. Sulfur 0.01 max. (68-106OOF) 8.4 x 10-6 (68-1485OF) 9.8 x 10-6 Thermal conductivity, Btu/ft2/hr/ft/oF (32-212oF) 8.7 Electrical conductivity, 7c IACS 1.6 Electrical resistivity, ohms/cir mil ft (68oF) 650 Temperature ccef. of resistance, microhms/ohm/oF (68-212oF) 47 Modulus of elasticity, psi...
Journal Articles
Alloy Digest (1991) 40 (12): Cu-567.
Published: 01 December 1991
... resistance alloy with near constant resistance over the range 15 to 40°C (59 to 104°F). It is used in precision electrical components. Composition (Nominal): Copper Manganese Nickel 84 12 4 Physical Properties: Density, lb/cu in. Specific gravity Melting point (Approximate) C OF Thermal coef. expansionK (20...
Journal Articles
Alloy Digest (1992) 41 (3): P-33.
Published: 01 March 1992
... THERMAL PROPERTIES ASTM Test property Method Units Value Specific gravity D792 - 1.33 Mold shrinkage, flow, 0.125 D955 in/in 0.005-0.007 Deflection temperature, 0.250 , unannealed D648 @ 264psi, l/4 (1.82MPa, 6.4mm) F ( C) 383 (195) Thermal index. elec. prop. UL746B C 170 Thermal index, mech. prop...
Journal Articles
Alloy Digest (1992) 41 (3): Cp-21.
Published: 01 March 1992
... resin with an added internal lubricant. PROPERTIES Table 1 -PHYSICAL PROPERTIES Property Specific gravity, solid Mold shrinkage, flow, 0.125 Water absorption, 24 h, 73°F (23°C) Deflection temperature, unannealed @ 264psi. l/4 (182MPa. 6.4mm) Vicat softening point, rate B Coefficient of thermal...
Journal Articles
Alloy Digest (1974) 23 (1): Cu-274.
Published: 01 January 1974
... iron. mangan- Specific heat, Btu/lb/oF (32-212OF) 0.094 ese and cobalt. Thermal coef. expansion See Table 1 Thermal conductivity, Btu/ft2/hr/ft/oF (32-2120F) 13 Electrical resistivity, ohms/cir mil ft (680F) 300 Temperature coef. of resistance, microhms/ohm/oF (68-2120F) 211 Thermal emf vs copper...
Journal Articles
Alloy Digest (1981) 30 (5): Fe-63.
Published: 01 May 1981
... JFgK 460 Thermal coef. expansion See Table 1 Electrical resistivIty. miaohm-cm (At 20°c) 134 ohms&c mil/ft (At 68OF) 806 Thermal coef. resistivity/°F (68-1832OF) (Approx) 5.6 x 10-5 OC (20-1000°C) (Approx) 10 x 10-5 Magnetic characteristics Modulus of elasticity, psi N/mm2 PROPERTIES Table 1 - LINEAR...
Journal Articles
Alloy Digest (1977) 26 (7): SS-342.
Published: 01 July 1977
... recrysral- lization depends on amount of cold work. Stress-Relief Anneal: Heat to 1350-14000F. air cool. Harden: Alloy 750 is a ferritic alloy and cannot be hardened by any thermal treatment. It can be hardened only by cold working. Machinability: Alloy 750 has machining characteristics similar to that of...