Add to ORKGMechanical properties and recrystallization of electron-beam-melted tungsten and arc-melted tungste
The need for structural materials with useful strength above 1600 k has stimulated interest in refra...
Electron beam melting and welding of tungsten- technetium alloys and density measurement
Effects of processing parameters on the metallurgical defects, microstructure, texture, and mechanic...
Effects of grain size on tensile and creep properties of arc melted and electron beam melted tungste
Mechanical properties of dilute tungsten-rhenium alloys prepared by electron beam and arc meltin
Prepared at Lewis Research Center."January 1966"--Cover.Includes bibliographical references (p. 33-3...
Influence of boron additions on physical and mechanical properties of arc-melted tungsten and of tun...
The properties of five lots of arc-melted tungsten have been characterized by chemical analyses, rec...
Arc-melted solid-solution and carbide strengthened tungsten alloys tested for mechanical properties ...
Comparison of creep-rupture properties of electron beam-melted polycrystalline and powder- metallurg...
Effect of carbon additions on solid solution and carbide strengthened arc melted tungsten alloy
Effect of rhenium on mechanical properties of hafnium carbide strengthened tungsten alloy
Electron beam remelted tungsten technetium alloys forged while encapsulated in molybdenum cans - sur...
Thermal shock resistance of various tungsten grades (different manufacturing technologies and heat t...
Tungsten is an outstanding material and due to its properties like highest melting point and tensile...
The need for structural materials with useful strength above 1600 k has stimulated interest in refra...
Electron beam melting and welding of tungsten- technetium alloys and density measurement
Effects of processing parameters on the metallurgical defects, microstructure, texture, and mechanic...
Effects of grain size on tensile and creep properties of arc melted and electron beam melted tungste
Mechanical properties of dilute tungsten-rhenium alloys prepared by electron beam and arc meltin
Prepared at Lewis Research Center."January 1966"--Cover.Includes bibliographical references (p. 33-3...
Influence of boron additions on physical and mechanical properties of arc-melted tungsten and of tun...
The properties of five lots of arc-melted tungsten have been characterized by chemical analyses, rec...
Arc-melted solid-solution and carbide strengthened tungsten alloys tested for mechanical properties ...
Comparison of creep-rupture properties of electron beam-melted polycrystalline and powder- metallurg...
Effect of carbon additions on solid solution and carbide strengthened arc melted tungsten alloy
Effect of rhenium on mechanical properties of hafnium carbide strengthened tungsten alloy
Electron beam remelted tungsten technetium alloys forged while encapsulated in molybdenum cans - sur...
Thermal shock resistance of various tungsten grades (different manufacturing technologies and heat t...
Tungsten is an outstanding material and due to its properties like highest melting point and tensile...
The need for structural materials with useful strength above 1600 k has stimulated interest in refra...
Electron beam melting and welding of tungsten- technetium alloys and density measurement
Effects of processing parameters on the metallurgical defects, microstructure, texture, and mechanic...