Vol.50, No.4, 285 ~ 293, 2012
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Title |
Effect of Precipitates on Hot Ductility Behavior of Steel Containing Ti and Nb |
한원배 Won Bae Han , 이종호 Jong Ho Lee , 김희수 Hee Soo Kim , 안현환 Hyeun Hwan An , 이승재 Seung Jae Lee , 김성우 Seong Woo Kim , 서석종 Seok Jong Seo , 윤종승 Chong Seung Yoon |
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Abstract |
Hot ductility behavior of precipitation-hardened low-carbon iron alloys containing 0.02 wt% Ti and 0.05 wt% Nb was characterized by a hot tensile stress test. Carbon (0.05, 0.1, 0.25 wt%) and boron (0.002 wt%) contents were varied to study the effect of precipitates on the high-temperature embrittlement of the alloys in the temperature range of 600~800℃. Ductility loss was observed at 700℃ for the tested alloys. The cause of the ductility loss was mainly attributed to the carbides and ferrite films formed at the grain boundaries during deformation. Although the carbon content tended to raise the total fraction of Nb (C, N), the precipitates were formed mostly in the grain interior as the precipitation temperature was raised above the deformation temperature by the high carbon content. Hence, carbon in excess suppressed the hot ductility loss. Meanwhile, boron addition improved the hot ductility of the alloys. The improvement is likely due to the boron atoms capturing carbon atoms and thus retarding the carbide formation. |
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Key Words |
steel, hot ductility, precipitation, Nb, Ti alloy |
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