Zirconium

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Material information

Our Zirconium is available as the following alloys:

ZrCu: ZrCu refers to an alloy composed of zirconium (Zr) and copper (Cu). The specific composition ratio may vary depending on the desired properties and applications. ZrCu alloys can exhibit characteristics such as high strength, good thermal stability, and excellent corrosion resistance. These alloys are used in various industries, including aerospace, automotive, and electronics, for applications such as structural components, heat exchangers, and electrical connectors.

ZrEr: ZrEr represents an alloy combining zirconium (Zr) and erbium (Er). The specific composition ratio can vary based on the desired properties and applications. ZrEr alloys can exhibit properties such as high-temperature resistance, improved mechanical strength, and corrosion resistance. These alloys find applications in industries such as aerospace, energy, and electronics for components requiring a combination of strength and resistance to harsh environments.

ZrFe: ZrFe is an alloy composed of zirconium (Zr) and iron (Fe). The specific composition ratio may vary depending on the desired properties and applications. ZrFe alloys can exhibit properties such as high strength, good ductility, and corrosion resistance. These alloys are used in industries such as aerospace, automotive, and chemical processing for applications including structural components, corrosion-resistant equipment, and nuclear fuel cladding.

ZrFeCrTiMn: ZrFeCrTiMn refers to an alloy combining zirconium (Zr), iron (Fe), chromium (Cr), titanium (Ti), and manganese (Mn). The specific composition ratio can vary based on the desired properties and applications. ZrFeCrTiMn alloys can exhibit characteristics such as high strength, excellent corrosion resistance, and good thermal stability. These alloys are commonly used in industries such as aerospace, chemical processing, and marine applications for components requiring high-performance materials with resistance to corrosion and harsh environments.

ZrMnAlCe: ZrMnAlCe is an alloy composed of zirconium (Zr), manganese (Mn), aluminum (Al), and cerium (Ce). The specific composition ratio may vary depending on the desired properties and applications. ZrMnAlCe alloys can exhibit properties such as high strength, good ductility, and resistance to corrosion and oxidation. These alloys find applications in industries such as aerospace, automotive, and chemical processing for components requiring a combination of strength and corrosion resistance.

ZrMnErMgAl: ZrMnErMgAl is an alloy composed of zirconium (Zr), manganese (Mn), erbium (Er), magnesium (Mg), and aluminum (Al). The specific composition ratio can vary based on the desired properties and applications. ZrMnErMgAl alloys can exhibit characteristics such as high strength, good ductility, and resistance to corrosion and high temperatures. These alloys are used in industries such as aerospace, automotive, and energy for applications requiring materials with excellent mechanical properties and thermal stability.

ZrNdFeB: ZrNdFeB refers to an alloy composed of zirconium (Zr), neodymium (Nd), iron (Fe), and boron (B). This alloy is a type of permanent magnet material known as neodymium-iron-boron (NdFeB) magnet. It exhibits extremely high magnetic properties, such as high magnetic remanence and high coercivity. ZrNdFeB magnets are widely used in various applications, including motors, generators, magnetic separators, and audio speakers.

ZrNdFeCoMo: ZrNdFeCoMo represents an alloy combining zirconium (Zr), neodymium (Nd), iron (Fe), cobalt (Co), and molybdenum (Mo). The specific composition ratio can vary based on the desired properties and applications. This alloy may possess characteristics such as high strength, excellent corrosion resistance, and good thermal stability. Its specific applications can vary across industries such as aerospace, automotive, and chemical processing, depending on the specific properties of the alloy.

ZrNdFeCoTi: ZrNdFeCoTi is an alloy composed of zirconium (Zr), neodymium (Nd), iron (Fe), cobalt (Co), and titanium (Ti). The specific composition ratio can vary based on the desired properties and applications. This alloy may exhibit properties such as high strength, good ductility, and corrosion resistance. Its specific applications can vary across industries such as aerospace, automotive, and electronics, depending on the specific properties of the alloy.

ZrNdGaNbFeB: ZrNdGaNbFeB refers to an alloy combining zirconium (Zr), neodymium (Nd), gallium (Ga), niobium (Nb), iron (Fe), and boron (B). This alloy is a type of permanent magnet material known as neodymium-iron-boron (NdFeB) magnet. The addition of gallium (Ga) and niobium (Nb) can modify the magnetic properties of the alloy. ZrNdGaNbFeB magnets exhibit high magnetic properties and are used in applications requiring strong and compact magnets, such as motors, generators, and magnetic resonance imaging (MRI) machines.

ZrNiMnTiVLa: ZrNiMnTiVLa represents an alloy combining zirconium (Zr), nickel (Ni), manganese (Mn), titanium (Ti), vanadium (V), and lanthanum (La). The specific composition ratio can vary based on the desired properties and applications. This alloy may possess characteristics such as high strength, good corrosion resistance, and good thermal stability. Its specific applications can vary across industries such as aerospace, automotive, and chemical processing, depending on the specific properties of the alloy.

ZrScGdNiAl: ZrScGdNiAl is an alloy composed of zirconium (Zr), scandium (Sc), gadolinium (Gd), nickel (Ni), and aluminum (Al). The specific composition ratio can vary based on the desired properties and applications. This alloy may exhibit properties such as high strength, good ductility, and corrosion resistance. Its specific applications can vary across industries such as aerospace, automotive, and electronics, depending on the specific properties of the alloy.

ZrSmFeCoMo: ZrSmFeCoMo refers to an alloy combining zirconium (Zr), samarium (Sm), iron (Fe), cobalt (Co), and molybdenum (Mo). The specific composition ratio can vary based on the desired properties and applications. This alloy may possess characteristics such as high strength, excellent corrosion resistance, and good thermal stability. Its specific applications can vary across industries such as aerospace, automotive, and chemical processing, depending on the specific properties of the alloy.

ZrSmFeCoTi: ZrSmFeCoTi is an alloy composed of zirconium (Zr), samarium (Sm), iron (Fe), cobalt (Co), and titanium (Ti). The specific composition ratio can vary based on the desired properties and applications. This alloy may exhibit properties such as high strength, good ductility, and corrosion resistance. Its specific applications can vary across industries such as aerospace, automotive, and electronics, depending on the specific properties of the alloy.

ZrTi: ZrTi represents an alloy combining zirconium (Zr) and titanium (Ti). The specific composition ratio can vary based on the desired properties and applications. ZrTi alloys can possess characteristics such as high strength, good corrosion resistance, and excellent biocompatibility. They are commonly used in applications such as aerospace components, medical implants, and chemical processing equipment.

ZrTiSnCu: ZrTiSnCu is an alloy composed of zirconium (Zr), titanium (Ti), tin (Sn), and copper (Cu). The specific composition ratio can vary based on the desired properties and applications. This alloy may exhibit properties such as high strength, good ductility, and corrosion resistance. Its specific applications can vary across industries such as aerospace, automotive, and electronics, depending on the specific properties of the alloy.

ZrTiMnCrHfFe: ZrTiMnCrHfFe represents an alloy combining zirconium (Zr), titanium (Ti), manganese (Mn), chromium (Cr), hafnium (Hf), and iron (Fe). The specific composition ratio can vary based on the desired properties and applications. This alloy may possess characteristics such as high strength, excellent corrosion resistance, and good thermal stability. Its specific applications can vary across industries such as aerospace, automotive, and chemical processing, depending on the specific properties of the alloy.

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