Iron

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 Iron is available as the following alloys:

FeBTi: FeBTi refers to a cast product composed of iron (Fe), boron (B), and titanium (Ti). It is likely an alloy where iron, boron, and titanium atoms are combined, potentially forming a solid solution or intermetallic compounds. The specific properties and applications of FeBTi would depend on the composition and the ratio of the different elements.

FeBNbGaNdZr: FeBNbGaNdZr is a complex cast product consisting of iron (Fe), boron (B), niobium (Nb), gallium (Ga), neodymium (Nd), and zirconium (Zr). It represents a multi-component alloy with a unique combination of these elements, potentially offering a range of desirable properties. The specific characteristics of FeBNbGaNdZr would depend on the composition and the manufacturing process.

FeBNdCu: FeBNdCu refers to a cast product composed of iron (Fe), boron (B), neodymium (Nd), and copper (Cu). It is likely an alloy where iron, boron, neodymium, and copper atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of FeBNdCu would depend on the specific composition and the ratio of the different elements.

FeBNdNb: FeBNdNb is a cast product consisting of iron (Fe), boron (B), neodymium (Nd), and niobium (Nb). It likely represents an alloy where iron, boron, neodymium, and niobium atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of FeBNdNb would depend on the specific composition and the ratio of the different elements.

FeBNdPr: FeBNdPr refers to a cast product composed of iron (Fe), boron (B), neodymium (Nd), and praseodymium (Pr). It is likely an alloy where iron, boron, neodymium, and praseodymium atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of FeBNdPr would depend on the specific composition and the ratio of the different elements.

FeBNdZr: FeBNdZr is a cast product containing iron (Fe), boron (B), neodymium (Nd), and zirconium (Zr). It likely represents an alloy where iron, boron, neodymium, and zirconium atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of FeBNdZr would depend on the specific composition and the ratio of the different elements.

FeBPr: FeBPr refers to a cast product composed of iron (Fe), boron (B), and praseodymium (Pr). It is likely an alloy where iron, boron, and praseodymium atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of FeBPr would depend on the specific composition and the ratio of the different elements.

FeCe: FeCe refers to a cast product containing iron (Fe) and cerium (Ce). It is most likely an alloy where iron and cerium atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of FeCe would depend on the specific composition and the ratio of the different elements.

FeCeB: FeCeB is a cast product composed of iron (Fe), cerium (Ce), and boron (B). It is likely an alloy where iron, cerium, and boron atoms are combined, potentially forming a solid solution or intermetallic compounds. The specific properties and applications of FeCeB would depend on the composition and the ratio of the different elements.

FeCeCoBGaCuAl: FeCeCoBGaCuAl is a complex cast product consisting of iron (Fe), cerium (Ce), cobalt (Co), boron (B), gallium (Ga), copper (Cu), and aluminum (Al). It represents a multi-component alloy with a unique combination of these elements, potentially offering a range of desirable properties. The specific characteristics of FeCeCoBGaCuAl would depend on the composition and the manufacturing process.

FeCeLaB: FeCeLaB is a cast product composed of iron (Fe), cerium (Ce), lanthanum (La), and boron (B). It is likely an alloy where iron, cerium, lanthanum, and boron atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of FeCeLaB would depend on the specific composition and the ratio of the different elements.

FeCeNdB: FeCeNdB is a cast product containing iron (Fe), cerium (Ce), neodymium (Nd), and boron (B). It is likely an alloy where iron, cerium, neodymium, and boron atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of FeCeNdB would depend on the specific composition and the ratio of the different elements.

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

FeCoMoSmZr: FeCoMoSmZr is a complex cast product composed of iron (Fe), cobalt (Co), molybdenum (Mo), samarium (Sm), and zirconium (Zr). It represents a multi-component alloy with a unique combination of these elements, potentially offering a range of desirable properties. The specific characteristics of FeCoMoSmZr would depend on the composition and the manufacturing process.

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

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

FeCr: FeCr refers to a cast product containing iron (Fe) and chromium (Cr). It is most likely an alloy where iron and chromium atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of FeCr would depend on the specific composition and the ratio of the different elements.

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

FeDy: FeDy refers to a cast product containing iron (Fe) and dysprosium (Dy). It is most likely an alloy where iron and dysprosium atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of FeDy would depend on the specific composition and the ratio of the different elements.

FeDyB: FeDyB is a cast product composed of iron (Fe), dysprosium (Dy), and boron (B). It is likely an alloy where iron, dysprosium, and boron atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of FeDyB would depend on the specific composition and the ratio of the different elements.

FeDyNd: FeDyNd is a cast product consisting of iron (Fe), dysprosium (Dy), and neodymium (Nd). It likely represents a multi-component alloy where iron, dysprosium, and neodymium atoms are combined, potentially forming a solid solution or intermetallic compounds. The specific properties and applications of FeDyNd would depend on the composition and the manufacturing process.

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

FeGaNdB: FeGaNdB is a cast product containing iron (Fe), gallium (Ga), neodymium (Nd), and boron (B). It likely represents a multi-component alloy with a unique combination of these elements, potentially offering a range of desirable properties. The specific characteristics of FeGaNdB would depend on the composition and the manufacturing process.

FeHfCrMnZrTi: FeHfCrMnZrTi is a complex cast product consisting of iron (Fe), hafnium (Hf), chromium (Cr), manganese (Mn), zirconium (Zr), and titanium (Ti). It represents a multi-component alloy with a unique combination of these elements, potentially offering a range of desirable properties. The specific characteristics of FeHfCrMnZrTi would depend on the composition and the manufacturing process.

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

FeLaCoSi: FeLaCoSi is a cast product consisting of iron (Fe), lanthanum (La), cobalt (Co), and silicon (Si). It represents a multi-component alloy with a unique combination of these elements, potentially offering a range of desirable properties. The specific characteristics of FeLaCoSi would depend on the composition and the manufacturing process.

FeLaMnSi: FeLaMnSi is a cast product composed of iron (Fe), lanthanum (La), manganese (Mn), and silicon (Si). It represents a multi-component alloy with a unique combination of these elements, potentially offering a range of desirable properties. The specific characteristics of FeLaMnSi would depend on the composition and the manufacturing process.

FeMnCrAlTi: FeMnCrAlTi is a complex cast product consisting of iron (Fe), manganese (Mn), chromium (Cr), aluminum (Al), and titanium (Ti). It represents a multi-component alloy with a unique combination of these elements, potentially offering a range of desirable properties. The specific characteristics of FeMnCrAlTi would depend on the composition and the manufacturing process.

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

FeNdNbB: FeNdNbB refers to a cast product containing iron (Fe), neodymium (Nd), niobium (Nb), and boron (B). It is a type of rare-earth magnet material known as neodymium iron boron (NdFeB) magnets with the addition of iron and niobium. FeNdNbB magnets possess strong magnetic properties and are widely used in applications that require high-performance magnets.

FeNdMo: FeNdMo is a cast product consisting of iron (Fe), neodymium (Nd), and molybdenum (Mo). It likely represents a multi-component alloy where iron, neodymium, and molybdenum atoms are combined, potentially forming a solid solution or intermetallic compounds. The specific properties and applications of FeNdMo would depend on the composition and the manufacturing process.

FeNi: FeNi refers to a cast product composed of iron (Fe) and nickel (Ni). It is likely an alloy where iron and nickel atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of FeNi would depend on the specific composition and the ratio of the different elements.

FeNiTi: FeNiTi is a cast product containing iron (Fe), nickel (Ni), and titanium (Ti). It likely represents an alloy where iron, nickel, and titanium atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of FeNiTi would depend on the specific composition and the ratio of the different elements.

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

FeSiMnLaCe: FeSiMnLaCe is a complex cast product consisting of iron (Fe), silicon (Si), manganese (Mn), lanthanum (La), and cerium (Ce). It represents a multi-component alloy with a unique combination of these elements, potentially offering a range of desirable properties. The specific characteristics of FeSiMnLaCe would depend on the composition and the manufacturing process.

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

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

FeTbCo: FeTbCo is a cast product containing iron (Fe), terbium (Tb), and cobalt (Co). It represents a multi-component alloy with a unique combination of these elements, potentially offering a range of desirable properties. The specific characteristics of FeTbCo would depend on the composition and the manufacturing process.

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

FeTi: FeTi refers to a cast product composed of iron (Fe) and titanium (Ti). It is likely an alloy where iron and titanium atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of FeTi would depend on the specific composition and the ratio of the different elements.

FeTiY: FeTiY is a cast product containing iron (Fe), titanium (Ti), and yttrium (Y). It likely represents an alloy where iron, titanium, and yttrium atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of FeTiY would depend on the specific composition and the ratio of the different elements.

FeTiMn: FeTiMn is a cast product consisting of iron (Fe), titanium (Ti), and manganese (Mn). It likely represents a multi-component alloy where iron, titanium, and manganese atoms are combined, potentially forming a solid solution or intermetallic compounds. The specific properties and applications of FeTiMn would depend on the composition and the manufacturing process.

FeTiSnNb: FeTiSnNb is a complex cast product composed of iron (Fe), titanium (Ti), tin (Sn), and niobium (Nb). It represents a multi-component alloy with a unique combination of these elements, potentially offering a range of desirable properties. The specific characteristics of FeTiSnNb would depend on the composition and the manufacturing process.

FeV: FeV refers to a cast product composed of iron (Fe) and vanadium (V). It is likely an alloy where iron and vanadium atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of FeV would depend on the specific composition and the ratio of the different elements.

Fe Vacuum Remelted: Fe Vacuum Remelted refers to cast products made from iron (Fe) that undergo a vacuum remelting process. Vacuum remelting involves melting the material under vacuum conditions to reduce impurities and improve the overall quality of the product. It helps achieve higher purity and better mechanical properties compared to conventional casting methods.

FeY: FeY refers to a cast product composed of iron (Fe) and yttrium (Y). It is likely an alloy where iron and yttrium atoms are combined, potentially forming a solid solution or intermetallic compounds. The properties of FeY would depend on the specific composition and the ratio of the different elements.

FeZrCrTiMn: FeZrCrTiMn is a complex cast product consisting of iron (Fe), zirconium (Zr), chromium (Cr), titanium (Ti), and manganese (Mn). It represents a multi-component alloy with a unique combination of these elements, potentially offering a range of desirable properties. The specific characteristics of FeZrCrTiMn would depend on the composition and the manufacturing process.

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

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