High reputation Tantalum Pellets - FeCo Sputtering Target High Purity Thin Film Pvd Coating Custom Made – Rich
High reputation Tantalum Pellets - FeCo Sputtering Target High Purity Thin Film Pvd Coating Custom Made – Rich Detail:
Iron Cobalt sputtering target is fabricated by means of vacuum melting and it has the wide proportion range (5%-70% Cobalt content). Cobalt and Iron could form solid solutions, so alloying of these two elements could obtain homogenous microstructure, uniform grain size, high purity, and density. It could be used for depositing thin films on a wide variety of materials in data storage industry for its excellent soft magnetic property.
Cobalt Iron alloy often used as a catalyst in the production of polycrystalline diamond (PCD) that would otherwise take even more pressure and a higher temperature to achieve. Diamond produced by Co-Fe alloy has high strength and purity and could be the potential materials for hard cutting and forming tools.
Rich Special Materials specializes in the Manufacture of Sputtering Target and could produce Iron Cobalt Sputtering Materials according to Customers’ specifications. For more information, please contact us.
Product detail pictures:
Related Product Guide:
We provide good power in high-quality and progress,merchandising,revenue and internet marketing and operation for High reputation Tantalum Pellets - FeCo Sputtering Target High Purity Thin Film Pvd Coating Custom Made – Rich , The product will supply to all over the world, such as: Hongkong, Belgium, Cologne, Whether selecting a current product from our catalog or seeking engineering assistance for your application, you can talk to our customer service center about your sourcing requirements. We can provided good quality with competitive price for you personally.
By Maxine from Malaysia - 2017.06.29 18:55
The supplier abide the theory of "quality the basic, trust the first and management the advanced" so that they can ensure a reliable product quality and stable customers.
By Laura from Amman - 2017.02.18 15:54