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Molybdenum Niobium Target
Purity: ≥99.95% Density: ≥8.6g/cm3 Melting point: 2468℃
Supply status: cold rolled bright surface Size range: 0.025min X 500max X L
Uses: vacuum coating, superconductivity, flat display, touch screen
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Product description

Product description

Purity: ≥99.95% Density: ≥8.6g/cm3 Melting point: 2468℃

Supply status: cold rolled bright surface Size range: 0.025min X 500max X L

Production process: raw materials-vacuum melting-forging-niobium ingot-rolling-finished niobium plate.

Uses: vacuum coating, superconductivity, flat display, touch screen

Keyword:
Molybdenum Niobium Target
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Ruthenium target
Ruthenium target is mainly used in the field of vacuum coating<br> Purity: 99.95%<br> Uses: vacuum coating, experimental or research grade ruthenium targets, electronics, optoelectronics, military, decorative coating, functional films, etc.
High purity titanium target
Purity: 4N-5N <br> Dimensions: diameter 50~400mm, thickness 3~28mm<br> Can be customized according to customer requirements
Rhenium target
Specifications: Purity Re≥99.99%~99.999%, shape, size and density accept various customized products. <br> Rhenium target material is used for magnetron sputtering coating. Magnetron sputtering coating is a new type of physical vapor (PVD) coating method. Compared with evaporation coating method, it has obvious advantages in many aspects. A more mature technology, magnetron sputtering has been used in many fields, such as semiconductor integrated circuits, solar photovoltaics, recording media, flat-panel displays, and workpiece surface coatings.
Mo-Re Target
product manual The ratio of molybdenum to rhenium: MoRe14%, MoRe41%, MoRe44.5%, MoRe47.5% Size range: thickness (0.2-20) × width (≯500) × length (≯1000), can be customized according to customer requirements Process flow: powder mixing → pressing → sintering → forging → annealing → machining → dynamic balance → vacuum degassing → packaging use A type of alloy formed by adding 14% to 47.5% rhenium to molybdenum. After adding rhenium, the ductility, welding performance and formability of the alloy can be greatly improved. Even after high temperature use, the molybdenum-rhenium alloy can still maintain good ductility Sex. Molybdenum-rhenium alloys are widely used in the electronics industry, nuclear industry and aerospace industry.
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