| 700MPa管线钢热压缩变形及组织研究 |
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| 引用本文: | 杨秀芝,华文林,杨春杰,董春法,肖新华.700MPa管线钢热压缩变形及组织研究[J].特殊钢,2018,39(2):10-12. |
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| 作者姓名: | 杨秀芝 华文林 杨春杰 董春法 肖新华 |
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| 作者单位: | 1湖北理工学院机电学院,黄石435003;
2华中科技大学材料成形及模具技术国家重点实验室,武汉430074 |
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| 基金项目: | 华中科技大学材料成形与模具技术国家重点实验室开放课题(No. P2018-014)资助 |
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| 摘 要: | 利用 Gleeble-3500型热模拟机,研究700MPa 管线钢(/%:0.07C,0.90Si,0.60Mn,0.008P,0.002S, 0.30Ni,0.10Cr,0.12Mo,0.06V,0.03Nb,0.28Cu,0.04Alt,0.0060N) 20mm热轧板在850~1250℃ 和应变速率0.01~1s-1下单道次热压缩变形及组织演变,得出单道次压缩变形真应力-真应变曲线,热压缩再结晶动态图和动态再结晶开始时间与变形温度关系(RTT)曲线。研究结果表明,发生再结晶由变形温度和应变速率共同决定,该700MPa管线钢在温度1100~1250℃和应变速率0.01~1s-1下压缩变形时容易发生再结晶。再结晶发生机制是热压缩应变,使得原始晶粒破碎、新晶界产生迁移促使新晶核生成。
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| 关 键 词: | 700MPa管线钢 20mm热轧板 再结晶 热压缩 |
| 收稿时间: | 2017-11-23 |
A Study on Thermal Compression Deformation and Structure of 700 MPa Pipeline Steel |
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| Yang Xiuzhi,Hua Wenlin,Yang Chunjie,Dong Chunfa,Xiao Xinhua.A Study on Thermal Compression Deformation and Structure of 700 MPa Pipeline Steel[J].Special Steel,2018,39(2):10-12. |
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| Authors: | Yang Xiuzhi Hua Wenlin Yang Chunjie Dong Chunfa Xiao Xinhua |
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| Affiliation: | 1 Mechanical and Electrical College, Hubei Polytechnic Institute, Huangshi 435003 ;
2 State Key Laboratory of Materials Processing and Die & Mould Technology,Huazhong University of Science and Technology, Wuhan 430074 |
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| Abstract: | With using Gleeble-3500 thermal simulator the single pass hot compression deformation and structure evo�lution of 20 mm hot-rolled plate of 700 MPa pipeline steel (/%: 0.07C, 0.90Si, 0.60Mn, 0.008P, 0.002S, 0.30Ni, 0.10Cr, 0.12Mo, 0.06V, 0.03Nb, 0.28Cu, 0.04Alt, 0.0060N) with strain rate 0.01~1s-1 at 850~1250°C have been studied to get single pass real stress-strain curves, hot compression dynamic recrystallization diagram and relation be�tween dynamic recrystallization initial time and deformation temperature (RTT) curves. Research results show that deform�ation temperature and strain rate make certain of initial recrystallization, the 700 MPa pipe line steel easily occurs dynamic recrystallization with strain rate 0.01~1s-1 at 1100~1250°C.the recrystallization mechanism is hot compression causing the original grain crushing and the new grain boundary migrating to prompt formation of new crystal nucleus. |
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