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http://dx.doi.org/10.3740/MRSK.2017.27.10.557

Evolution on Microstructure and Mechanical Property of Ti65Fe35 Hypereutectic Alloys by Adding Low Melting Temperature Elements  

Hwang, Yun Jung (Department of Nanotechnology and Advanced Materials Engineering, Sejong University)
Hong, Sung Hwan (Department of Nanotechnology and Advanced Materials Engineering, Sejong University)
Kim, Jeong Tae (Department of Nanotechnology and Advanced Materials Engineering, Sejong University)
Kim, Young Seok (Department of Nanotechnology and Advanced Materials Engineering, Sejong University)
Park, Hae Jin (Department of Nanotechnology and Advanced Materials Engineering, Sejong University)
Kim, Hee Jin (Department of Nanotechnology and Advanced Materials Engineering, Sejong University)
Jeong, Yeon Beom (Department of Nanotechnology and Advanced Materials Engineering, Sejong University)
Lee, Young Hoon (Department of Nanotechnology and Advanced Materials Engineering, Sejong University)
Kim, Ki Buem (Department of Nanotechnology and Advanced Materials Engineering, Sejong University)
Publication Information
Korean Journal of Materials Research / v.27, no.10, 2017 , pp. 557-562 More about this Journal
Abstract
The microstructural evolution and modulation of mechanical properties were investigated for a $Ti_{65}Fe_{35}$ hypereutectic alloy by addition of $Bi_{53}In_{47}$ eutectic alloys. The microstructure of these alloys changed with the additional BiIn elements from a typical dendrite-eutectic composite to a bimodal eutectic structure with primary dendrite phases. In particular, the primary dendrite phase changed from a TiFe intermetallic compound into a ${\beta}$-Ti solid solution despite their higher Fe content. Compressive tests at room temperature demonstrated that the yield strength slightly decreased but the plasticity evidently increased with an increasing Bi-In content, which led to the formation of a bimodal eutectic structure (${\beta}$-Ti/TiFe + ${\beta}$-Ti/BiIn containing phase). Furthermore, the (Ti65Fe35)95(Bi53In47)5 alloy exhibited optimized mechanical properties with high strength (1319MPa) and reasonable plasticity (14.2 %). The results of this study indicate that the transition of the eutectic structure, the type of primary phases and the supersaturation in the ${\beta}$-Ti phase are crucial factors for controlling the mechanical properties of the ultrafine dendrite-eutectic composites.
Keywords
eutectic alloy; microstructural heterogeneity; ${\beta}$-Ti alloy; mechanical property; shear band;
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