Sonstiges, Englisch, 384 Seiten, Format (B × H): 125 mm x 142 mm, Gewicht: 200 g
Sonstiges, Englisch, 384 Seiten, Format (B × H): 125 mm x 142 mm, Gewicht: 200 g
ISBN: 978-3-03859-653-0
Verlag: Trans Tech Publications
Autoren/Hrsg.
Weitere Infos & Material
Advanced Aerospace Metals Requirements and Characteristics - An Overview Materials for Advanced Aerospace Applications Aerospace Applications of Advanced Aluminum AlloysAdvanced Ti3Al-Base Alloy Property Comparison Advances in Steels for Aerospace Applications Advanced Aluminum Aerospace Alloys in the USA - An OverviewAdvances in Titanium Alloys Advances in Cost Effective Processing of Titanium Powder Metallurgy of Advanced Titanium Alloys Design of a Forging Processing Route for a Gas Turbine Compressor Disc in IMI 834 Nanometer Scale Materials - Characterization and Fabrication Nanostructured Crystalline and Amorphous Solids Advanced Aerospace Alloys via Rapid Solidification Recent Developments in Superalloy Melting Technology Rebirth of Mechanical Alloying Kinematics of the Mechanical Alloying Process Advances in Plasma Melting Technology Thermodynamic Properties and Crystal Growth of Undercooled Liquid Alloys Modelling of the Hot-Working of High Perfomance Alloys The Simulation of Single Crystal Turbine Blade Solidification High Perfomance Al Alloy by Cryogenic Milling Wet Powder Pouring Advances in High Performance P/M Materials and Processes Advanced Aluminum Alloy Powders Fracture Toughness and Fatigue Crack Growth of Intermetallics and Continuous Fibre Reinforced Titanium Based Alloys Aerospace Applications of Intermetallics Designing New Multi-Phase Intermetallic Materials Based on Phase Compatibility Considerations The Production of Nickel Aluminide (NiAI) by Various Routes Environmental Effects in Titanium Aluminides Alloys Processing of Fiber Reinforced Titanium Composites The World Won't Beat a Path to Your Door Coating Particulate SiC in Aluminum Metal Matrix Composites Development of Cast Aluminium Metal Matrix Composites An ODS Material with Outstanding Creep and Oxidation Properties above 1100?C