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A Study on the Strength Characteristics of $L1_{2}-Ni_{3}Al$ Intermetallic Compound  

Han, Chang-Suk (Dept. of Defense Science & Technology, Hoseo University)
Chun, Chang-Hwan (Dept. of Defense Science & Technology, Hoseo University)
Han, Seung-Oh (Institute of Fusion Technology, Hoseo University)
Publication Information
Journal of the Korean Society for Heat Treatment / v.22, no.1, 2009 , pp. 8-15 More about this Journal
Abstract
Structural studies have been performed on precipitation hardening found in $Ni_{3}Al$ based ordered alloys using transmission electron microscopy (TEM). Tilt experiments by the weak-beam method were made to obtain some information concerning the cross slip mechanism of the superlattice dislocation. The strength of ${\gamma}(Al,Ti) increases over the temperature range of experiment by the precipitation of fine $\gamma$ particles. The peak temperature where a maximum strength was obtained shifted to higher temperature. Over the whole temperature range, the interaction between dislocation and $\gamma$ precipitates is attractive. On the temperature range of 773 K to 973 K, the dislocations in ${\gamma} matrix move on (111) primary slip plane. When the applied stress is removed, the dislocations make cross slip into (010) plane, while those in $\gamma$ precipitates remain on the (111) primary slip plane. The increase of high temperature strength in ${\gamma}(Al,Ti) containing $\gamma$ precipitates is due to the restraint of cross slip of dislocations from (111) to (010) by the dispersion of disordered $\gamma$ particles.
Keywords
Intermetallic compound; $Ll_2$-ordered phase; Superlattice dislocation; High temperature strength; Precipitation;
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