전자기 듀오캐스팅으로 제조한 Al-Mn/Al-Si 하이브리드 알루미늄합금의 미세조직과 인장 특성

박성진; 김종호; 박준표; 장시영; Sung-Jin Park; Tingju Li; Chong-Ho Kim; Jun-Pyo Park; Si Young Chang

Korean Journal of Materials Research, Vol.22, No.2, 97-102, February, 2012

DOI10.3740/MRSK.2012.22.2.97 Export Citation

전자기 듀오캐스팅으로 제조한 Al-Mn/Al-Si 하이브리드 알루미늄합금의 미세조직과 인장 특성

Microstructure and Tensile Properties of Al-Mn/Al-Si Hybrid Aluminum Alloy Prepared by Electromagnetic Duo-Casting

박성진, ¹, 김종호², 박준표², 장시영 ^†

한국항공대학교 항공재료공학과
¹Tingju Li 중국대련이공대
²포항산업과학연구원

Sung-Jin Park, Tingju Li¹, Chong-Ho Kim², Jun-Pyo Park², and Si Young Chang^†

Dept. of Materials Engineering, Korea Aerospace University, Gyeounggi-do 412-791, Korea
¹School of Materials Science and Engineering, Dalian University of Technology, Dalian 116089, China, Korea
²New Materials Research Department, RIST, Pohang 790-600, Korea

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The microstructure and tensile properties of Al-Mn/Al-Si hybrid aluminum alloys prepared by electromagnetic duocasting were investigated. Only the Al-Mn alloy showed the typical cast microstructure of columnar and equiaxed crystals. The primary dendrites and eutectic structure were clearly observed in the Al-Si alloy. There existed a macro-interface of Al-Mn/Al-Si alloys in the hybrid aluminum alloys. The macro-interface was well bonded, and the growth of primary dendrites in Al- Si alloy occurred from the macro-interface. The Al-Mn/Al-Si hybrid aluminum alloys with a well-bonded macro-interface showed excellent tensile strength and 0.2% proof stress, both of which are comparable to those values for binary Al-Mn alloy, indicating that the strength is preferentially dominated by the deformation of the Al-Mn alloy side. However, the degree of elongation was between that of binary Al-Mn and Al-Si alloys. The Al-Mn/Al-Si hybrid aluminum alloys were fractured on the Al-Mn alloy side. This was considered to have resulted from the limited deformation in the Al-Mn alloy side, which led to relatively low elongation compared to the binary Al-Mn alloy.

Keywords:electromagnetic duo-casting;Al-Mn/Al-Si hybrid aluminum alloy;macro-interface;tensile properties

[References]

Lee SH, Lee GJ, Korean J. Mater. Res., 21(12), 655 (2011)
Yilmaz O, Celik H, J. Mater. Process. Tech., 141, 67 (2003)
Kacar R, Acarer M, J. Mater. Process. Tech., 152, 91 (2004)
Kazanowshi P, Epler ME, Misiolek WZ, Mater. Sci. Eng., 369, 170 (2004)
Dingfa F, Honglong N, Zenhua C, Ordnance Mater. Sci. Eng., 24, 65 (2001)
Jianbo S, Jun L, Zhiming Y, Zhiquiang C, Tingju L, in Proceedings of the 6th International Conference on Electromagnetic Processing of Materials (Dresden, Germany, October 2009), p595. (2009)
Chang SY, Cho SJ, Hong SK, Shin DH, J. Alloy. Comp., 316, 275 (2001)
Chang SY, Kim YK, Hong SK, Shin DH, Mater. Trans., 42, 1035 (2001)
Chang SY, Cho HG, Kim YD, J. Kor. Powd. Metal. Inst., 14, 354 (2007)

[Referenced By]

[Related Articles]

[1] Lee SH, Lee GJ, Korean J. Mater. Res., 21(12), 655 (2011)

[2] Yilmaz O, Celik H, J. Mater. Process. Tech., 141, 67 (2003)

[3] Kacar R, Acarer M, J. Mater. Process. Tech., 152, 91 (2004)

[4] Kazanowshi P, Epler ME, Misiolek WZ, Mater. Sci. Eng., 369, 170 (2004)

[5] Dingfa F, Honglong N, Zenhua C, Ordnance Mater. Sci. Eng., 24, 65 (2001)

[6] Jianbo S, Jun L, Zhiming Y, Zhiquiang C, Tingju L, in Proceedings of the 6th International Conference on Electromagnetic Processing of Materials (Dresden, Germany, October 2009), p595. (2009)

[7] Chang SY, Cho SJ, Hong SK, Shin DH, J. Alloy. Comp., 316, 275 (2001)

[8] Chang SY, Kim YK, Hong SK, Shin DH, Mater. Trans., 42, 1035 (2001)

[9] Chang SY, Cho HG, Kim YD, J. Kor. Powd. Metal. Inst., 14, 354 (2007)