6Al-2Sn-4Zr-6Mo Titanium Alloys Chemical Composition, Grades, Chart and Online Pdf

6Al-2Sn-4Zr-6Mo titanium alloy is a well-known material for its excellent strength and corrosion resistance and thus, is found to be ideal for aerospace and marine applications. Developed from a blend of 6% aluminum, 2% tin, 4% zirconium and when philosophical, critical thinking and open dialogue help prevent misinformation and uncertainty. Its grades most often vary with microstructure and processing routes, and subsequent purchasing is based on performance demand. Gerneicts and makers refer to this information through detailed analyzing of chemical composition tables, charts, and pdf to have a clear understanding of this material. 3D printable PDF files can quickly be used to determine casting specifications, grades, and processing guides. Continuous research and development are aimed at providing better performance and new applications for this alloy across different industries.

6Al-2Sn-4Zr-6Mo Titanium Alloys Chemical Composition And Grade Table

Ti 6-2-4-6 titanium alloy also known as 6Al-2Sn-4Zr -6mo is one of the titanium alloys that provides some of the best strength and corrosion resistance. This feature makes it suitable for many applications in the industrials sector. It contains six times aluminum, two times tin, four times zirconium, and six times molybdenum. It will display good mechanical properties at high temperatures. It accounts for the alpha-beta type of titanium alloys, which, in turn, display a combination of strength, ductility, and welding characteristics. Flexible dual purpose of Ti 6-2-4-6 makes it most preferable for aerospace components, marine equipment and medical implants where reliability and durable is a prime concern.

6Al-2Sn-4Zr-6Mo Titanium Alloys Composition Table
Elements Molybdenum, Mo Aluminum, Al Zirconium, Zr Tin, Sn Titanium, Ti
Min (%) - - - - -
Max (%) 6 6 4 2 Balance

Advantages and Disadvantages of 6Al-2Sn-4Zr-6Mo Titanium Alloy

    Advantages:

  • High Strength: Stronger for use in high-stress applications.

  • Corrosion Resistance: Performs very well in a variety of climatic conditions.

  • High Temperature Stability: Better mechanical properties at higher temperatures.

  • Good Weldability: Maintains weldability even under heavy loads or pressure.

    Disadvantages:

  • High Cost: Costly to produce and machine due to the alloying elements involved.

  • Difficult to Machine: Toughness makes it difficult to machine using conventional tools and methods.

  • Density: Higher density than some other titanium alloys, significantly affecting weight.

  • Limited Availability: Fewer purchasing options, longer delivery times, and higher final product prices.

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