6Al-4V ELI properties, composition, temperature _ environment _ typical _ round bar

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Original Title: 6Al-4V ELI Performance, Composition, Temperature 6Al-4V ELI Ti 6Al-4V ELI is a grade of Ti-6Al-4V

Original Title: 6Al-4V ELI Performance, Composition, Temperature 6Al-4V ELI Ti 6Al-4V ELI is a grade of Ti-6Al-4V with a small structural gap, which can achieve maximum toughness and is suitable for seawater and low temperature environment. This grade of alloy is normally used in the annealed condition. Ti-6Al-4V is a good candidate for medical implants. The production process comprises annealing at 900-1200 ° F for 1-4 hours, and air cooling. The process for duplex annealing, round bars and forgings, is solution annealed at a beta transition temperature of 50-100 ° F, air cooled after a minimum of 1 hour, ti6al4v eli , then reheated at 1300-1400 ° F, air cooled after a minimum of 1 hour. Relaxation annealing is suitable after welding. Chemical composition: 6Al-4V ELI Material standard: AMS 4907, AMS 4930, AMS 4931, AMS 4956 Werkstoff 3.7164 Product form: 6Al-4V ELI Round Bar, 6Al-4V ELI Welded Products Common Trade Names 6-4 ELI Titanium, 6-4 ELI Material properties: Resistant to body fluid corrosion Suitable for different corrosive environments Resistant to stress corrosion cracking Expand the full text Good strength and toughness over a wide temperature range Resistance to erosion, corrosion and corrosion fatigue Effectively resistant to chlorine, fluorine, hydrogen chloride and hydrogen fluoride Main application Medical and Dental Implants Low temperature environment Aviation Chemical treatment Physical properties Density: 0.160 lb/in3 Melting point: 2370-2460 ° F Transition temperature: 91790 + 25 ° F Minimum Tensile Properties, AMS 4919,titanium tubing price, Duplex Annealed Mechanical properties of materials Typical Rockwell Hardness: C 30-34 Specified Minimum, AMS 4931 Round Bars and Forgings Typical Tensile Properties, Sheet Typical tensile properties Performance at typical gradient rise temperatures Performance at typical gradient rise temperatures Return to Sohu to see more Responsible Editor:. yunchtitanium.com

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