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Copper alloy no. 687

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Journal Articles
Alloy Digest (1976) 25 (6): Cu-313.
Published: 01 June 1976
... Copper Alloy No. 687 is a copper-zinc-aluminum alloy with high resistance to corrosion and erosion; in addition, it has good strength and ductility and can be cold worked and cold formed readily. It is chiefly used in the form of tubes for various types of equipment such as condensers and heat...
Journal Articles
Alloy Digest (1983) 32 (6): Cu-459.
Published: 01 June 1983
... AMBRALOY 687 is a copper-zinc-aluminum-arsenic alloy. It is effectively inhibited against dezincification by the small but strictly regulated addition of arsenic (nominally 0.04%). It is superior to Admiralty Metal (Copper Alloys No. C44300, C44400 and C44500) where water is contaminated by sewage...
Journal Articles
Alloy Digest (1970) 19 (3): Cu-213.
Published: 01 March 1970
... ASM International Ambraloy-687 chemical composition condenser corrosion-resistant alloys elasticity hardness heat exchanger tubes heat treatability joinability machinability physical properties tensile properties workability AMBRAtOY-687 Filing Code: Cu-213 Copper Alloy MARCH 1970...
Journal Articles
Alloy Digest (2002) 51 (8): Cu-687.
Published: 01 August 2002
.... Heat Treatment: For tempers with cold deformations less than 40% (<TD04) anneal at 400 °C (750 °F) for 2 h. For tempers with cold deformations 40% or greater ( TD04) anneal at 400 °C (750 °F) for 1 h. SWISSMETAL® SM275H (BOILLAT CN8) Filing Code: Cu-687 Copper August 2002 SWISSMETAL® SM275H (BOILLAT...
Journal Articles
Alloy Digest (2011) 60 (2): Ni-687.
Published: 01 February 2011
... ALLOY 825 Chemical Composition, wt (Typical) Carbon 0.05 max Chromium 19.5 23.5 Nickel 38.0 46.0 Molybdenum 2.5 3.5 Sulfur 0.03 max Manganese 1.00 max Silicon 0.5 max Aluminum 0.2 max Copper 1.5 3.0 Titanium 0.6 1.2 Iron 22.0 min Physical Properties: Density, kg/m3 (lb/in.3) 8140 (0.240) Specific heat...
Journal Articles
Alloy Digest (1964) 13 (5): Cu-141.
Published: 01 May 1964
... Bridgeport 54 is a copper-zinc-aluminum alloy having high corrosion and erosion resistance combined with good strength and ductility. This datasheet provides information on composition, physical properties, hardness, elasticity, and tensile properties. It also includes information on corrosion...
Journal Articles
Alloy Digest (1992) 41 (12): Ni-419.
Published: 01 December 1992
... Carlson alloy C825 is a wrought nickel-iron-chromium alloy with additions of molybdenum, copper, and titanium. It was developed to handle both reducing and oxidizing media. The alloy is resistant to chloride-ion stress-corrosion cracking, to pitting and crevice attack and many corrosive solutions...
Journal Articles
Alloy Digest (1983) 32 (10): Ni-293.
Published: 01 October 1983
... JESSOP JS825 is a wrought nickel-iron-chromium-molybdenum-copper alloy for use in extremely corrosive environments. The many corrosion-resistant properties of JS825 make the alloy a suitable choice for a variety of difficult applications. It is suitable for such applications as chemical...
Journal Articles
Alloy Digest (1963) 12 (2): Ni-79.
Published: 01 February 1963
... MONEL alloy R-405 is a machining grade of nickel-copper alloy that combines toughness, strength and corrosion resistance of MONEL alloy 400 with excellent machinability. The alloy is designed especially for use in automatic screw machines. This datasheet provides information on composition...
Journal Articles
Alloy Digest (1988) 37 (6): Ni-109.
Published: 01 June 1988
... INCOLOY alloy 825 is a nickel-chromium-iron alloy with additions of molybdenum, copper, and titanium. It is resistant to chloride-ion stress-corrosion cracking, to pitting and crevice attack, and to corrosion in both oxidizing and reducing media. This datasheet provides information on composition...
Journal Articles
Alloy Digest (2007) 56 (12): Ti-144.
Published: 01 December 2007
... tensile properties TIMETAL 230 workability thermal properties UNS R56260 Chemical Composition, wt Copper 2.00 3.00 Iron 0.20 max Oxygen 0.20 max Carbon 0.08 max Nitrogen 0.03 max Hydrogen 0.01 max Residual elements, each 0.10 max Residual elements, total 0.40 max Titanium bal TIMETAL® 230 Filing...
Journal Articles
Alloy Digest (2001) 50 (4): Ni-563.
Published: 01 April 2001
.... Chemical Composition, wt Chromium 19.5 23.5 Nickel 38.0 46.0 Molybdenum 2.5 3.5 Copper 1.5 3.0 Carbon 0.05 max Manganese 1.0 max Sulfur 0.03 max Silicon 0.05 max Aluminum 0.2 max Titanium 0.6 1.2 Iron 22 min Physical Properties: Density, kg/m3 (lb/in.3 ) 8140 (0.294) Melting range, °C (°F) 1371 1399 (2500...
Journal Articles
Alloy Digest (2004) 53 (2): Ni-508.
Published: 01 February 2004
... resistance in phos- phoric acid, and the copper content facilitates passivation in sulfuric acid. Besides excellent resistance to nitric-hydrofluoric acid mixtures, this alloy also has an outstanding resistance to corrosion by alkaline media. Its resistance to pitting and crevice corrosion in chloride media...
Journal Articles
Alloy Digest (1977) 26 (10): SS-345.
Published: 01 October 1977
...) Thermal conductivity, cal/cm2/cm/s/oC (At 2OoC) EMF vs. copper, mv (At 108OOC) Electrical reslstivity, ohms/circular mIl ft (At 2OoC) ohms/square mIl ft (At 200C) microhms/cm cube (At 2OoC) Electrical coef. resistance/oC (2&l 1OOoC) 0.258 7.10 1520(2770) 0.11 13.9 x 10-6 15.6 x 10-6 17.4 x 10-6 21.5 x 10...
Journal Articles
Alloy Digest (2022) 71 (8): CS-228.
Published: 01 August 2022
... on the corrosion of nonalloy steels in soft water. Source: Ref 21 Liquid-Metal Corrosion. Non-alloy steels can be embrittled by contact with liquid brass, aluminum bronze, copper, zinc, lead-tin solders, lithium, cadmium, and indium. The degree of embrittlement is greater for steels that have been heat treated...