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      일방향응고시킨 Al-CuAl2 공정복합재료의 열적안정성에 관한 연구 = A Study on Thermal Stability of Unidirectionally Solidified Al-CuAl2 Eutectic Composite

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      https://www.riss.kr/link?id=A3047439

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      The effect of thermal cycling and isothermal exposure on the high temperature microstructural stability of unidirectionally solidified Al-CuAl₂eutectic composite has been studied. A coarsening procedures of lamellar eutectic structures were initiated at growth fault region because of diffusion through low angle boundary at this region. It was considered that thermally induced residual stresses produced by thermal cycling were high enough to increase the dislocation density in Al-rich matrix phase. However, it was also considered that dislocations generated by these high thermal stresses were annihilated at high temperature by stress relaxation. Consequently, the thermal cycling up to 1440 cycles between 20 and 520℃ did not affect the microstructural stability.
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      The effect of thermal cycling and isothermal exposure on the high temperature microstructural stability of unidirectionally solidified Al-CuAl₂eutectic composite has been studied. A coarsening procedures of lamellar eutectic structures were initiate...

      The effect of thermal cycling and isothermal exposure on the high temperature microstructural stability of unidirectionally solidified Al-CuAl₂eutectic composite has been studied. A coarsening procedures of lamellar eutectic structures were initiated at growth fault region because of diffusion through low angle boundary at this region. It was considered that thermally induced residual stresses produced by thermal cycling were high enough to increase the dislocation density in Al-rich matrix phase. However, it was also considered that dislocations generated by these high thermal stresses were annihilated at high temperature by stress relaxation. Consequently, the thermal cycling up to 1440 cycles between 20 and 520℃ did not affect the microstructural stability.

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