Advanced Materials and Processing Techniques for Structural Applications: Paris, 7-9 September 1987 |
Contents
MICROSTRUCTURE | 27 |
A Unified Approach to the Study of Creep and Fatigue Damage | 47 |
High Temperature Creep and Structural Changes in Nickel Base | 69 |
26 other sections not shown
Common terms and phrases
alloy powder aluminide coatings annealing atoms behaviour blade cast ceramic CMSX2 components composition cooling rate corrosion crack propagation creep cycle decrease deformation degassing dendritic dislocation dispersion strengthened dispersoid ductility effect electron eutectic experimental extruded fatigue Figure fracture furnace gas turbine grain boundary heat treatment high temperature incipient melting INCONEL INCONEL alloy increasing ingot interdiffusion interface intermetallic load long crack material matrix mechanical properties mechanically alloyed melt spinning metal microstructure mold necklace microstructure Ni-based nickel aluminide nickel base superalloys nickel-base NIMONIC nitride observed orientation overlay coatings oxidation parameters particles phase planes plasma sprayed precipitates Proc production range rapid solidification rapidly solidified recrystallised recrystallization resistance ribbon room temperature rupture samples short crack shown in Fig single crystal slip systems solid solution specimens strain rate strength stress structure substrate superalloys surface Table techniques tensile tests thermal titanium vacuum volume fraction