Cobalt

The 3d render shown here is for illustrative purposes only and does not reflect the actual appearance, quality, or functionality of the final product.

Material information

Our Cobalt is available as the following alloys:

CoAlNi: CoAlNi refers to a cast product composed of cobalt (Co), aluminum (Al), and nickel (Ni). It is likely an alloy where these elements are combined, potentially forming a solid solution or intermetallic compounds. The specific properties and applications of CoAlNi would depend on the composition and the manufacturing process.

CoAlTi: CoAlTi is a cast product consisting of cobalt (Co), aluminum (Al), and titanium (Ti). It is most likely an alloy where cobalt, aluminum, and titanium atoms are combined, potentially forming a solid solution or intermetallic compounds. The specific characteristics of CoAlTi would depend on its composition and intended applications.

CoCe: CoCe refers to a cast product containing cobalt (Co) and cerium (Ce). It is likely an alloy where cobalt and cerium atoms are mixed, forming a solid solution or intermetallic compounds. The properties of CoCe would depend on the specific composition and the ratio of cobalt to cerium.

CoEr: CoEr is a cast product composed of cobalt (Co) and erbium (Er). It is most likely an alloy where cobalt and erbium atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of CoEr would depend on the specific composition and the ratio of cobalt to erbium.

CoFeCeBGaCuAl: CoFeCeBGaCuAl is a complex cast product composed of cobalt (Co), iron (Fe), cerium (Ce), boron (B), gallium (Ga), copper (Cu), and aluminum (Al). It likely represents a multi-component alloy with a unique combination of these elements, potentially offering a range of desirable properties.

CoFeTbCr: CoFeTbCr refers to a cast product consisting of cobalt (Co), iron (Fe), terbium (Tb), and chromium (Cr). It is likely an alloy where these elements are combined, potentially forming a solid solution or intermetallic compounds. The properties of CoFeTbCr would depend on the specific composition and the ratio of the different elements.

CoFeTb: CoFeTb is a cast product composed of cobalt (Co), iron (Fe), and terbium (Tb). It is most likely an alloy where cobalt, iron, and terbium atoms are combined, forming a solid solution or intermetallic compounds. The properties of CoFeTb would depend on the specific composition and the ratio of the different elements.

CoFeV: CoFeV is a cast product containing cobalt (Co), iron (Fe), and vanadium (V). It is likely an alloy where cobalt, iron, and vanadium atoms are mixed, forming a solid solution or intermetallic compounds. The properties of CoFeV would depend on the specific composition and the ratio of the different elements.

CoGd: CoGd refers to a cast product composed of cobalt (Co) and gadolinium (Gd). It is most likely an alloy where cobalt and gadolinium atoms are combined, forming a solid solution or intermetallic compounds. The properties of CoGd would depend on the specific composition and the ratio of the different elements.

CoGdSm: CoGdSm is a cast product consisting of cobalt (Co), gadolinium (Gd), and samarium (Sm). It is likely an alloy where cobalt, gadolinium, and samarium atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of CoGdSm would depend on the the specific composition and the ratio of the different elements.

CoMo: CoMo refers to a cast product containing cobalt (Co) and molybdenum (Mo). It is likely an alloy where cobalt and molybdenum atoms are mixed, potentially forming a solid solution or intermetallic compounds. The properties of CoMo would depend on the specific composition and the ratio of the different elements.

CoMoFeNdZr: CoMoFeNdZr is a complex cast product composed of cobalt (Co), molybdenum (Mo), iron (Fe), neodymium (Nd), and zirconium (Zr). It likely represents a multi-component alloy with a unique combination of these elements, potentially offering a range of desirable properties.

CoPr: CoPr refers to a cast product consisting of cobalt (Co) and praseodymium (Pr). It is most likely an alloy where cobalt and praseodymium atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of CoPr would depend on the specific composition and the ratio of the different elements.

CoSiLaFe: CoSiLaFe is a cast product composed of cobalt (Co), silicon (Si), lanthanum (La), and iron (Fe). It is likely an alloy where cobalt, silicon, lanthanum, and iron atoms are mixed, potentially forming a solid solution or intermetallic compounds. The properties of CoSiLaFe would depend on the specific composition and the ratio of the different elements.

CoSm – 2/17: CoSm – 2/17 is a cast product consisting of cobalt (Co) and samarium (Sm) with a specific ratio of 2 cobalt atoms to 17 samarium atoms. It is likely an alloy where cobalt and samarium atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of CoSm – 2/17 would depend on the specific composition and the ratio of the different elements.

CoSmFeMnCr: CoSmFeMnCr refers to a cast product composed of cobalt (Co), samarium (Sm), iron (Fe), manganese (Mn), and chromium (Cr). It is likely an alloy where these elements are combined, potentially forming a solid solution or intermetallic compounds. The properties of CoSmFeMnCr would depend on the specific composition and the ratio of the different elements.

CoSn: CoSn is a cast product containing cobalt (Co) and tin (Sn). It is likely an alloy where cobalt and tin atoms are mixed, forming a solid solution or intermetallic compounds. The properties of CoSn would depend on the specific composition and the ratio of the different elements.

CoTaZrB: CoTaZrB refers to a cast product composed of cobalt (Co), tantalum (Ta), zirconium (Zr), and boron (B). It is likely an alloy where cobalt, tantalum, zirconium, and boron atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of CoTaZrB would depend on the specific composition and the ratio of the different elements.

CoTi: CoTi is a cast product consisting of cobalt (Co) and titanium (Ti). It is most likely an alloy where cobalt and titanium atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of CoTi would depend on the specific composition and the ratio of the different elements.

CoTiFeNdZr: CoTiFeNdZr is a complex cast product composed of cobalt (Co), titanium (Ti), iron (Fe), neodymium (Nd), and zirconium (Zr). It likely represents a multi-component alloy with a unique combination of these elements, potentially offering a range of desirable properties. The specific properties and applications of CoTiFeNdZr would depend on the composition and the manufacturing process.

Co Vacuum Remelted: Co Vacuum Remelted refers to cobalt (Co) that has undergone a vacuum remelting process. Vacuum remelting is a method used to refine the purity and homogeneity of the metal. During the process, the cobalt is melted in a vacuum environment, which helps remove impurities and gases, resulting in a higher-quality material. The vacuum remelted cobalt may exhibit improved mechanical properties, better corrosion resistance, and reduced gas content compared to conventional cast cobalt.

CoY: CoY refers to a cast product containing cobalt (Co) and yttrium (Y). It is most likely an alloy where cobalt and yttrium atoms are combined, potentially forming a solid solution or intermetallic compounds. The specific properties and applications of CoY would depend on the composition and the ratio of the different elements. The addition of yttrium can modify the properties of cobalt, such as improving high-temperature stability or enhancing certain mechanical properties.

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