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Coating material High purity 99.95% CuMo target Copper molybdenum sputtering target scientific research experiment

Chromium Cobalt

Short Description:

Category

Alloy Sputtering Target

Chemical Formula

CrCo

Composition

Chromium cobalt

Purity

99.9%,99.95%,99.99%

Shape

Plates,Column Targets,arc cathodes,Custom-made

Production Process

Vacuum Melting

Available Size

L≤2000mm,W≤200mm


Product Detail

Product Tags

Coating material High purity 99.95% CuMo target Copper molybdenum sputtering target scientific research experiment,
Copper molybdenum sputtering target CuMo target High purity,
Chromium cobalt sputtering target from Rich Special Materials is a silvery alloy sputtering material containing Cr and Co.

Chromium

Chromium is a chemical element that originated from the Greek ‘chroma’, meaning color. It was early used before 1 AD and discovered by Terracotta Army. “Cr” is the canonical chemical symbol of chromium. Its atomic number in the periodic table of elements is 24 with a location at Period 4 and Group 6, belonging to the d-block. The relative atomic mass of chromium is 51.9961(6) Dalton, the number in the brackets indicating the uncertainty.

Cobalt

Cobalt is a chemical element that originated from the German word ‘kobald’, meaning goblin. It was first mentioned in 1732 and observed by G. Brandt. “Co” is the canonical chemical symbol of cobalt. Its atomic number in the periodic table of elements is 27 with a location at Period 4 and Group 9, belonging to the d-block. The relative atomic mass of cobalt is 58.933195(5) Dalton, the number in the brackets indicating the uncertainty.

Chronium Cobalt Sputtering Targets are manufactured by means of Vacuum Melting and PM. CrCo has superior specific strength and has been used in various fields where high wear-resistance was needed including aerospace industry, cutlery, bearings, blades, etc.

Rich Special Materials specializes in the Manufacture of Sputtering Target and could produce Chronium Cobalt Sputtering Materials according to Customers’ specifications. For more information, please contact us.The preparation of copper-molybdenum alloy target materials now mainly adopts the melt-immersion method, adopts high-quality molybdenum powder and oxygen-free copper powder, applies isostatic compression molding (high temperature sintering – copper seepage), fine tissue, good arc breaking performance, good electrical conductivity, good thermal conductivity, and small thermal expansion.
Advantages are, copper molybdenum alloy thermal conductivity is 40% higher than similar tungsten copper composites, thermal properties and mechanical properties, thermal expansion, no need for expensive molds, high-precision parts processing, electroplating and metal options, airtight.


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