Search

Sort by: More Search Options
Results 1 - 10 of 340 for Solution annealing
  • Article - 14 Aug 2003
    Ti4Al4Mo2Sn is a high strength forging titanium alloy. Its silicon content improves strength and creep resistance at intermediate temperatures. Other designations, phyical and mechanical properties,...
  • Article - 14 Aug 2003
    Ti5Al2Sn4Mo2Zr4Cr is a near beta titanium alloy. It has properties that are superior to Ti6Al4V. Other designations, phyical and mechanical properties, fabrication details and applications are...
  • Article - 11 Feb 2003
    Ti3Al8V6Cr4Mo4Zr is a metastable beta titanium alloy. Grade 20 differs from grade 19 in that it has palladium added for corrosion resistance. The composition, mechanical and physical properties are...
  • Article - 12 Sep 2002
    Ti5Al2.5Sn is a high strength alloy commonly used in airframe and jet engine applications. It has excellent weldability, stability and high temperature strength. Composition, designations, physical...
  • Article - 23 Aug 2002
    Titanium palladium alloys are a family of corrosion resistant alloys, while mechanical properties are very similar to commercially pure titanium. The addition of ruthenium in place of palladium...
  • Article - 30 Jul 2002
    Ti6Al4V is an alpha-beta alloy and the most widely used of all the titanium alloys. Ti6Al4V ELI is also briefly described.
  • Article - 7 Nov 2001
    904L is a low carbon, high alloy austenitic stainless steel. It has excellent formability, weldability and toughness. It has good resistance to reducing acids as well as chloride attack. Typical...
  • Article - 19 Oct 2001
    2205 is the most widely used duplex (ferritic/austenitic) stainless steel grade. Its most important properties are excellent corrosion resistance and high strength. Applications include chemical...
  • Article - 26 Oct 2001
    Grade 430 is a non-hardenable grade that combines good corrosion resistance, formability and useful mechanical properties. It is resistant to nitric acid making it useful in the chemical industry, but...
  • Article - 24 Jun 2004
    Heat treatment processes can be performed on aluminium alloys to increase strength and other properties. Processes such as annealing, solutiuon heat treatment, quenching and age hardening are...