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A Study on the Deformation Behaviors of $Ni_3Al$ Single Crystals Depending on Crystallographic Orientations  

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.3, 2009 , pp. 155-161 More about this Journal
Abstract
An investigation of the deformation behavior of ${\gamma} single crystals containing fine dispersion of disordered ${\gamma}$ particles was performed for several different crystal orientations. Deformation structures were observed by the weak-beam method of transmission electron microscopy (TEM). The critical resolved shear stress (CRSS) for (111) [$\bar{1}$01] slie. increases with increasing temperature in the temperature range where (111) slip operates. The CRSS for (111) [$\bar{1}$01] slip is dependent on crystal orientation in the corresponding temperature range. The temperature where the strenjlth reaches a maximum is dependent on crystal orientation; the higher the ratio of the Schmid factors of (010) [$\bar{1}$01] to that of (111) [$\bar{1}$01], the higher the peak temperature. The peak temperatures were increased by the precipitation of y particles for the samples of all orientations. Electron microscopy of deformation induced dislocation arrangements under peak temperature has revealed that most of dislocations are straight screw dislocations. The mobility of screw dislocations decreases with increasing temperature. Above the peak temperature, dislocations begin to cross slip from the (111) [$\bar{1}$01] slip system to the (010) [$\bar{1}$01] slip system, thus decreasing the strength.
Keywords
intermetallic compound; $LI_2$-ordered phase; superlattice dislocation; cross slip; orientation dependence of strength;
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