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IN-838

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Journal Articles
Alloy Digest (1975) 24 (5): Cu-297.
Published: 01 May 1975
... IN-838 is a wrought copper-15% nickel alloy with a controlled chromium addition for improved corrosion resistance in flowing sea water. This datasheet provides information on composition, physical properties, elasticity, and tensile properties. It also includes information on corrosion resistance...
Journal Articles
Alloy Digest (1978) 27 (1): Cu-346.
Published: 01 January 1978
... Copper Alloy No. 838 is a free-cutting copper-base alloy for castings. It was formerly identified as Commercial Red Brass or 83-4-6-7 alloy. It offers an excellent combination of corrosion resistance, machinability, moderate strength and good casting characteristics. Its wide use includes...
Journal Articles
Alloy Digest (2019) 68 (2): SA-838.
Published: 01 February 2019
... on composition, physical properties, and tensile properties. Filing Code: SA-838. Producer or source: SSAB Swedish Steel Inc.. Producer or Source: SSAB Swedish Steel Inc. Copyright © ASM International® 2019 2019 ASM International chemical composition physical properties Strenx 100 tensile...
Journal Articles
Alloy Digest (2015) 64 (6): Cu-838.
Published: 01 June 2015
... strength as well as fatigue. It also includes information on corrosion resistance as well as forming, heat treating, and joining. Filing Code: Cu-838. Producer or source: Wieland Metals Inc.. Producer or Source: Wieland Metals Inc. Copyright © ASM International® 2015 2015 ASM International...
Journal Articles
Alloy Digest (2000) 49 (1): TS-570.
Published: 01 January 2000
... Finkl WF-XTRA has high wear resistance while retaining moderate fracture toughness. The alloy is recommended for larger die blocks. The optimum diameter for hardenability is 838 mm (33 in.). It is appropriate for use in high-production hammers where die temperatures may be above average...
Journal Articles
Alloy Digest (2001) 50 (12): SS-838.
Published: 01 December 2001
..., hardness, elasticity, and tensile properties. It also includes information on corrosion resistance as well as forming, heat treating, machining, and surface treatment. Filing Code: SS-838. Producer or source: ALZ nv. Producer or Source: ALZ nv Copyright © ASM International® 2001 2001 ASM...
Journal Articles
Alloy Digest (2023) 72 (9): TS-838.
Published: 01 September 2023
... on composition, physical properties, microstructure, and hardness. It also includes information on heat treating. Filing Code: TS-838. Producer or source: Deutsche Edelstahlwerke Specialty Steel. Copyright © ASM International® 2023 2023 ASM International chemical composition Deutsche Edelstahlwerke...
Journal Articles
Alloy Digest (2000) 49 (8): SA-505.
Published: 01 August 2000
... by heating uniformly to 838 860 °C (1540 1850 °F) and furnace cooling. Normalize by heating uniformly to 899 954 °C (1650 1750 °F) and air cooling. Carburize at 899 927 °C (1650 1700 °F) and slow cool. To harden, oil quench from 816 832 °C (1500 1530 °F). Temper at 135 190 °C (275 375 °F). Workability: Forge...
Journal Articles
Alloy Digest (2012) 61 (12): TS-712.
Published: 01 December 2012
... treatment response is shown in Fig. 1. Relative property comparison is shown in Fig. 2. Heat Treatment: Critical temperatures Ac1: 838 °C (1540 °F) Preheating. To minimize distortion in complex tools, use a double preheat. Heat at a rate not exceeding 222 ºC (400 ºF) per hour to 621 677 ºC (1150 1250 ºF...
Journal Articles
Alloy Digest (2013) 62 (1): TS-713.
Published: 01 January 2013
... ºF) Ac3: 924 ºC (1695 ºF) Ar1: 838 ºC (1540 ºF) Ar3: 777 ºC (1430 ºF) LSS is a trademark of Latrobe Specialty Steel Co. Table 1 Thermal conductivity Temperature, °C (°F) W/m·K (Btu/(h·ft·°F)) 27 (80) 25.14 (14.52) 204 (400) 29.75 (17.19) 427 (800) 29.75 (17.19) 649 (1200) 28.91 (16.70) Table 2 Heat...
Journal Articles
Alloy Digest (2001) 50 (3): TS-584.
Published: 01 March 2001
... Treatment: The temperature at which austenite begins to form on heating (Ac1) is 838 °C (1540 °F). Hardening. Preheat to 816 845 °C (1500 1550 °F) and equal- ize. Austenitize or high anneal by heating rapidly from the pre- heat, typically by transferring to a second furnace. For optimal wear resistance...
Journal Articles
Alloy Digest (1972) 21 (5): Cu-255.
Published: 01 May 1972
... F52 0.015 mm 38000 14000 42 F60 Quarter hard 42000 3 2000 25 838 Half hard 48000 40000 12 B52 Hard 56000 50000 5 864 Extra hard 61000 55000 4 B70 Spring 64000 5 8000 4 873 *Annealed tempers specified by grain size. Shear Strength osi 28000 30000 32000 34000 3 7000 39000 40000 Table 2 - SHORT-TIME...
Journal Articles
Alloy Digest (1994) 43 (11): TS-533.
Published: 01 November 1994
... 538 lOCKI 938 136 807 117 6 593 1100 827 120 731 106 5 649 1200 641 93 552 80 4 Oil quenched from 1175 C (2150°F), tempered 648°C (12oo F), 2+2 h to 46.5 HRC 21 70 1551 225 1382 200.5 8.8 427 800 1265 183.5 1151 167 9.1 538 loal 1100 159.5 1007 146 9.7 593 1100 917 133 838 121.5 9.3 649 1200 696 101...
Journal Articles
Alloy Digest (1986) 35 (10): Fe-73.
Published: 01 October 1986
... RESPONSE \s Rh* rllce chic tahlc with Figure I and Hear Treatment iompla No. smm He I* RbO KG. oa. KG. 4 1OKG 50 1450 13 9 700 047 7.750 9496 838 8800 15KG 15.130 063 9 738 10500 436 49955 5 10KG 50 1550 4 10.890 0.46 8 057 10550 1772 19480 15KG 15090 0.61 10.920 10290 725 46170 6 ?OKC 61 61 10.690 2.73...
Journal Articles
Alloy Digest (1990) 39 (11): SA-453.
Published: 01 November 1990
... (71O C) Ae, = 1525 F (830°C) AC, = 1330 F (721 C) AC, = 1540 F (838 C) MS= 82O F (438°C) (Ae,, AeJ, and Ms were estimated). Full Anneal: Heat 1650-1700°F (899-954°C). hold 45 minutes, furnace cool. Maximum annealed hardness is 149 Brinell. Normalize: Heat to 1650-1750 F, hold 45 minutes, air cool...
Journal Articles
Alloy Digest (2003) 52 (8): TS-601.
Published: 01 August 2003
... Treatment: Critical Temperature. The critical temperature is 838 °C (1540 °F). Forging. Forge at 1095 1150 °C (2000 2100 °F). Do not forge below 930 °C (1700 °F). Slow cool. Annealing. Heat to 870 °C (1600 °F) and hold 2 h. Slow cool no faster than 15 °C/h (30 °F/h) to 540 °C (1000 °F) then furnace cool...
Journal Articles
Alloy Digest (2003) 52 (11): SS-892.
Published: 01 November 2003
... elements. Producer: Engineered Materials Solutions, Inc. 39 Perry Ave. Attleboro, MA 02703 (508) 342-2100 (888) 838-8824 ISSN: 002-614X SS-892B Fig. 1 Strength versus cold work reduction Fig. 2 Weight gain over time ...
Journal Articles
Alloy Digest (2004) 53 (1): Fe-125.
Published: 01 January 2004
... Materials Solutions, Inc. 39 Perry Ave. Attleboro, MA 02703 (508) 342-2100 (888) 838-8824 info@emsclad.com httpwww.emsclad.com ISSN: 002-614X Fe-125B Fig. 1 CTE as a function of the thickness of the copper layer ...
Journal Articles
Alloy Digest (1995) 44 (12): Ni-494.
Published: 01 December 1995
... 0.097 13.4 94 138 832 208 30.1 10.8 6.0 300 600 423 0.101 14.6 104 139 836 203 293 11.1 6.2 400 800 431 0.104 16.0 114 139 838 197 28.4 11.4 6.4 500 1000 444 0.107 173 124 141 858 191 27.4 11.6 6.5 600 1200 456 0.110 18.7 134 146 900 184 26.1 11.8 6.6 700 176 Note: Values are mn conversions from metric...
Journal Articles
Alloy Digest (1968) 17 (2): TS-202.
Published: 01 February 1968
... 838-75? C. Machinability: * Machinability rating of the annealed stock is about 60% of that of a 1% carbon steel and about 48% of AISI Blll2 steel. Single point turning tools of high speed steel should be ground to 16-20 deg. side rake, 4-7 deg. back rake, 4-8 deg. side relief, 3-5 deg. end relief, 8...