Synthesis, Processing, and Modelling of Advanced Materials
Presents the results of the 2nd ASM Paris Conference on advanced materials. The theme of the meeting was selected to recognize that materials have matured to a stage where significant advances in the future require more than the traditional microstructure-mechanical proerty relationship approach. Rather, greater emphasis must be placed on synthesis/processing and modelling of advanced materials to achieve enhanced levels of physical and mechanical performance.
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Materials for Advanced Aerospace Applications
Advanced HjAIBase Alloy Property Comparison
16 other sections not shown
aerospace applications aircraft airframe Al-Li Al-Li alloys aluminum Aluminum Alloys amorphous argon atomised casting ceramic commercial components consolidation Copyright Trans Tech corrosion resistance cost crack growth creep resistance deformation density diameter Dispersion Strengthened dispersoids ductility electron elevated temperature Engineering Materials Vol experimental extrusion F. H. Froes fabrication fatigue fiber forging fracture toughness grain boundaries heat treatment high temperature hot isostatic pressing hydrogen improved increase ingot interface intermetallic investment castings Key Engineering Materials liquid Materials Vol 77-78 mechanical alloying mechanical properties melting metal matrix composites microstructure milling MMCs nanometer nanostructured solids NiAl niobium parameters particles phase plasma Powder Metallurgy PREP produced rapid solidification room temperature shown in Figure solubility spray steel stress structure superalloys surface Table techniques Technol temperature Al alloys testing thermal TiAl titanium alloys titanium aluminides Trans Tech Publications turbine undercooling vacuum Warrendale yield strength