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High-Entropy Alloys (HEA) Zirconium Titanium Hafnium Niobium Molybdenum Alloy Powder ZrTiHfNbMo
Properties
• Application: Aerospace
Industry
• Molecular Weight:Total Atomic Mass=91.224 + 47.867 + 178.49 + 92.906 + 95.95 = 506.443
• Melting Point: ≈1855°C- 2468°C
• Powder particle size:customize
• Brand Name : Lonwin
• MOQ: 1KG
Products Usage
Applications of Zirconium Titanium Hafnium Niobium Molybdenum Alloy Powder (ZrTiHfNbMo)
Zirconium Titanium Hafnium Niobium Molybdenum (ZrTiHfNbMo) alloy powder is a high-entropy alloy known for its unique properties, including high melting point, good strength, and corrosion resistance. These alloys are designed for applications that require materials with exceptional performance under extreme conditions.
In the aerospace industry, ZrTiHfNbMo alloys can be used in the production of high-temperature components such as turbine blades and nozzles due to their ability to withstand high temperatures and stresses. The alloy's high strength and corrosion resistance make it suitable for use in nuclear reactors, where it can be used in the construction of fuel rods and other critical components.
In the medical field, ZrTiHfNbMo alloys can be used in the development of biomedical implants due to their biocompatibility and mechanical properties. The alloy's potential for use in high-entropy alloy (HEA) systems paves the way for new developments in metallic biomaterials.
The alloy's high-temperature strength and corrosion resistance also make it a candidate for use in high-performance coatings and wear-resistant applications.
Packing:
Our normal packaging is 25kgs/Drum
The packaging can be customized. the shipping term can be by sea, by air, and sample or small quantity can be shipped by DHL, FEDEX, EMS and TNT.
Remark: Chemical composition and size can be optimized by the customers' requirements
Conditions for safe storage, including any incompatibilities
Separated from ammonia, strong hydrogen peroxide solutions and strong acids.
Safety Protection
Precautions for safe handling
Handling in a well ventilated place. Wear suitable protective clothing. Avoid contact with skin and eyes. Avoid formation of dust and aerosols. Use non-sparking tools. Prevent fire caused by electrostatic discharge steam.