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Alloy cobalt-chromium-nickel

Alloys are prepared commercially and in the laboratory by melting the active metal and aluminum in a crucible and quenching the resultant melt which is then crushed and screened to the particle size range required for a particular application. The alloy composition is very important as different phases leach quite differently leading to markedly different porosities and crystallite sizes of the active metal. Mondolfo [14] provides an excellent compilation of the binary and ternary phase diagrams for aluminum alloys including those used for the preparation of skeletal metal catalysts. Alloys of a number of compositions are available commercially for activation in the laboratory or plant. They include alloys of aluminum with nickel, copper, cobalt, chromium-nickel, molybdenum-nickel, cobalt-nickel, and iron-nickel. [Pg.26]

Cobalt is used in the manufacture of alloys with a high melting point, strength, and resistance to oxidation, in nuclear technology, and in the manufacture of hard metal alloys, e.g., for grinding wheels. Alloys with chromium, nickel, molybdenum, and copper are used in the electrical, aeronautical, and car industries. [Pg.334]

F 1058, Specification for Wrought Cobalt-Chromium-Nickel-Molybdenum-Iron Alloy for Surgical Implant Applications... [Pg.504]

It is alloyed with iron, nickel and other metals to make Alnico, an alloy of unusual magnetic strength with many important uses. Stellite alloys, containing cobalt, chromium, and tungsten, are used for high-speed, heavy-duty, high temperature cutting tools, and for dies. [Pg.83]

Mechanical properties depend on the alloying elements. Addition of carbon to the cobalt base metal is the most effective. The carbon forms various carbide phases with the cobalt and the other alloying elements (see Carbides). The presence of carbide particles is controlled in part by such alloying elements such as chromium, nickel, titanium, manganese, tungsten, and molybdenum that are added during melting. The distribution of the carbide particles is controlled by heat treatment of the solidified alloy. [Pg.372]

ANSI/ADA specification no. 14 provides a requirement for removable partial dentures of a combined minimum of 85% by weight of chromium, cobalt, and nickel or, for alloys failing to meet that minimum, at least 20% chromium. Bio-compatibiUty is demonstrated by passing the pertinent criteria of ANSI/ADA specification no. 41, Recommended Standard Practices for Biological Evaluation of Dental Materials. [Pg.485]

Gold, platinum, palladium, and silver are the principal components of most of the solders used for joining both noble and base metal alloys. Some solders for base metal alloys also contain nickel, chromium, and/or cobalt as primary ingredients. [Pg.487]

The second approach, that of surface coating, is more difficult, and that means more expensive. But it is often worth it. Hard, corrosion resistant layers of alloys rich in tungsten, cobalt, chromium or nickel can be sprayed onto surfaces, but a refinishing process is almost always necessary to restore the dimensional tolerances. Hard ceramic coatings such as AbO, Cr203, TiC, or TiN can be deposited by plasma methods and these not only give wear resistance but resistance to oxidation and... [Pg.248]

Metallic cobalt, metallic nickel and an alloy powder containing 66-67% nickel, 13-16% chromium and 7% iron... [Pg.101]

Approximately 90% of all RPDs are now cast from base metal alloys containing principally chromium, cobalt and nickel, with chromium being the element present in all such alloys. Commonly, these cast chromium alloys contain various alloying elements, typically <5% Mo, <1% Fe, 25-30% Cr and the balance Co although there are some widely used alloys containing... [Pg.462]

Moberg, L. E. Long-term Corrosion Studies In Vitro of Gold, Cobalt-Chromium and Nickel-Chromium Alloys in Contact Acta Odontologia Scandanavia, 43, 215-222 (1985)... [Pg.467]

In recent years, the spraying process has been adapted for hard facing, using the chromium-nickel-boron alloys which have become known as Colmonoy. More recently still, the cobalt-base Stellite alloys have also been used. These materials in powder form are sprayed on to the surface in the usual way. The deposit is afterwards heat treated by a torch, so that fusion takes place. The process is often known as spray-welding. Such coatings are primarily used for hard facing under wear conditions, but as the Anal surface is nickel-chromium or cobalt-chromium they exhibit very high anticorrosive properties. [Pg.429]

Wearmouth has described the production of nickel-cobalt, nickel-manganese, and nickel-chromium alloy coatings for non-decorative uses. The nickel-cobalt and nickel-manganese are electrodeposited direct from sulphamate-based solutions, the nickel-cobalt alloys offering higher hardness than the nickel-manganese alloys, which are restricted to a relatively... [Pg.540]

The most important application of chromium is in the production of steel. High-carbon and other grades of ferro-chomium alloys are added to steel to improve mechanical properties, increase hardening, and enhance corrosion resistance. Chromium also is added to cobalt and nickel-base alloys for the same purpose. [Pg.216]

See other pages where Alloy cobalt-chromium-nickel is mentioned: [Pg.252]    [Pg.477]    [Pg.252]    [Pg.252]    [Pg.530]    [Pg.86]    [Pg.836]    [Pg.530]    [Pg.110]    [Pg.118]    [Pg.134]    [Pg.239]    [Pg.7]    [Pg.40]    [Pg.451]    [Pg.376]    [Pg.484]    [Pg.486]    [Pg.787]    [Pg.113]    [Pg.100]    [Pg.135]    [Pg.275]    [Pg.638]    [Pg.1063]    [Pg.80]    [Pg.382]    [Pg.112]    [Pg.155]    [Pg.61]    [Pg.373]    [Pg.16]    [Pg.99]    [Pg.40]    [Pg.47]    [Pg.352]   
See also in sourсe #XX -- [ Pg.373 ]



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Alloying chromium

Alloying nickel

Chromium alloy

Cobalt alloys

Cobalt nickel

Cobalt-chromium

Cobalt-chromium alloy

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