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Results 1691 - 1700 of 1891 for Iron & Steel
  • Article - 5 Jul 2013
    Commercially pure titanium alloys contain small amounts of oxygen and iron that influence its mechanical properties. Each commercial grade is produced to provide properties suited for different...
  • Article - 5 Jul 2013
    The mechanical properties of commercially pure titanium alloys are influenced the presence of small amounts of oxygen and iron. Grade 1 unalloyed Ti ("Pure") 35A alloy contains the lowest oxygen and...
  • Article - 9 Aug 2013
    Grade Ti 10V 2Fe 3Al alloy is a near-beta alloy that was mainly developed to suit airframe forging applications. This alloy has unique combination of excellent hot-die forgeability and excellent high...
  • Article - 24 Jul 2013
    Titanium alloys possess excellent corrosion resistance, very high tensile strength and toughness. Another added advantage is that they are light weight.
  • Article - 3 Jul 2013
    Nickel alloy 276 is a nickel-molybdenum-chromium-iron-tungsten alloy which is the most corrosion-resistant alloys available today. The high molybdenum content in its composition imparts corrosion...
  • Article - 9 Aug 2013
    Titanium mixed with other chemical elements such as aluminum, tin, molybdenum and zirconium produces a wide range of titanium alloys.
  • Article - 9 Aug 2013
    Titanium alloys possess very good corrosion resistance, high tensile strength and toughness. They are also light weight. Grade Ti 6Al 2Nb 1Ta 1Mo alloy is a near alpha wrought alloy.
  • Article - 30 Jul 2013
    Titanium alloys are divided into three types, namely, alpha-phase, beta-phase, and alpha-beta-phase. Grade 23 Ti 6Al 4V ELI alloy is an alpha-beta wrought alloy. The ELI stands for extra low...
  • Article - 8 Jul 2013
    Titanium alloys are metals containing a combination of titanium and other chemical elements. They are lightweight and corrosion resistant. Grade 19 Ti 3Al 8V 6Cr 4Zr 4Mo alloy is a beta wrought alloy....
  • Article - 8 Jul 2013
    Titanium mixed with other chemical elements such as molybdenum, aluminum, nickel, and zirconium produces a wide range of titanium alloys.

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