Journal
PHILOSOPHICAL MAGAZINE
Volume 91, Issue 28, Pages 3667-3684Publisher
TAYLOR & FRANCIS LTD
DOI: 10.1080/14786435.2011.586158
Keywords
intermetallic compound; Co-base superalloys; compression deformation behaviour; dislocation; transmission electron microscopy
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Funding
- Ministry of Education, Culture, Sports, Science and Technology (MEXT) Japan [21246101, 21360337]
- Global COE (Center of Excellence) Program of International Center for Integrated Research and Advanced Education in Materials Science from the MEXT Japan
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The plastic behaviour of Co-3(Al, W) polycrystals with the L1(2) structure has been investigated in compression from 77 to 1273 K. The yield stress exhibits a rapid decrease at low temperatures (up to room temperature) followed by a plateau (up to 950 K), then it increases anomalously with temperature in a narrow temperature range between 950 and 1100 K, followed again by a rapid decrease at high temperatures. Slip is observed to occur exclusively on {111} planes at all temperatures investigated. The rapid decrease in yield stress observed at low temperatures is ascribed to a thermal component of solid-solution hardening that occurs during the motion of APB-coupled dislocations whose core adopts a planar, glissile structure. The anomalous increase in yield stress is consistent with the thermally activated cross-slip of APB-coupled dislocations from (111) to (010), as for many other L1(2) compounds. Similarities and differences in the deformation behaviour and operating mechanisms among Co-3(Al, W) and other L1(2) compounds, such as Ni3Al and Co3Ti, are discussed.
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