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Twin roll strip casting 공정으로 제조된 Al 3527K 합금의 인장 및 피로 변형 거동
함기수(G. S. Ham),백민석(M. S. Baek),어광준(K. J. Euh),임영목(Y. M. Rhyim),이기안(K. A. Lee) 한국소성가공학회 2016 한국소성가공학회 학술대회 논문집 Vol.2016 No.4
This study investigated tensile and fatigue properties of Al 3527K alloy manufactured by strip casting process. Al 3527K alloy (as strip casted (F material)) produced by twin roll strip casting and H heat treated (480°C, 6hr, AC) alloy were examined and compared. Microstructure observation results revealed that both alloys (F and H) featured rapid solidification microstructures. In addition, both alloys were identified to be composed of Al, Al6(Mn, Fe) and AlFeMnSi phases. As H heat treatment was applied, Al 3527K-H alloy formed a more even phase distribution than Al 3527K-F alloy. The tensile properties showed that H heat treatment resulted in increase of strength and decrease of elongation. In tensile fracture surface observation, both alloys showed typical ductile fracture modes. The F alloy was measured to have a dimple size of 6.8㎛ on average, and the H alloy measured 4.2㎛ on average in fracture surfaces. High-cycle fatigue tests were performed using ISTRON 8501, and the test conditions were stress ratio R=0.1, 10 Hz at room temperature. The fatigue limit showed that H heat treatment resulted in increase of fatigue properties at all stress condition. Furthermore, F alloy featured a larger deviation in fatigue life in all identical stress conditions compared to the O alloy. This study also discussed the fatigue deformation behavior of Al 3527K alloy manufactured by strip casting through the abovementioned mechanical properties as well as the tensile and fatigue fractographies.