One unique aspect of this year's symposium is the attention paid to alternate materials. Awareness of the potential benefits of advanced metal matrix and ceramic composites is particularly useful in defining the full potential for superalloys in the future. There is no doubt that gas turbine engines of the future will require materials with capabilities different than those of current superalloys. Despite this trend, the uses and sophistication of superalloys are expected to grow, creating a more vital class of materials. This Symposium is dedicated to Herbert L. Eiselstein for his contributions involving alloy design, development, and processing. During his 30 years at Huntington Alloys, Mr. Eiselstein authored and co-authored numerous publications dealing with alloying effects, heat treatment, and physical metallurgy of superalloys. Patents which bear his name include those for Inconel 718, Inconel 625, and Inconel 903. Inconel 718 is recognized as one of the most important superalloys used in gas turbine applications. The growing use of Inconel 718 in aerospace and other applications is further evidence of the importance of his internationally recognized accomplishments.
Superalloys 1988 en/ Superalloys 1988. Proceedings
Superlegierungen 1988
1988
883 Seiten
Conference Proceedings
English
HOCHFESTE LEGIERUNG , WERKSTOFFSUBSTITUTION , WERKSTOFFWAHL , VERBUNDWERKSTOFF , DISPERSIONSGEHAERTETER WERKSTOFF , MIKROGEFUEGE , FRAKTOGRAPHIE , SUPERLEGIERUNG , STAND DER TECHNIK , HITZEBESTAENDIGE LEGIERUNG , THERMISCHE STABILITAET , FERTIGUNGSVERFAHREN , LEGIERUNGSELEMENT , EINKRISTALL , GIESSEN , PULVERMETALLURGIE , KERAMIK , GASTURBINE , WAERMEBEHANDLUNG , PATENT , LUFTFAHRTINDUSTRIE , RAUMFAHRTINDUSTRIE , SCHMIEDELEGIERUNG , MECHANISCHE EIGENSCHAFT , METALLPULVER , DISPERSIONSGEHAERTETE LEGIERUNG
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