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Effect of austenitising and deformation temperatures on dynamic recrystallisation in Nb-Ti microalloyed steel

机译：奥氏体化和变形温度对Nb-Ti微合金钢动态再结晶的影响

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摘要

An investigation into influence of the austenitising temperature and the austenite deformation temperature on Nb precipitation and recrystallisation kinetics was carried out for a steel containing 0.081C-0.021Ti-0.064Nb (wt. %). The austenite grain structure was correlated to the dispersive properties of Nb atom clustering and precipitation. Irrespective of the austenitising temperature, deformation to 0.75 strain at 1075 ℃ produced a fully recrystallised microstructure. After deformation at 975 ℃, only partial recrystallisation was observed in the samples austenitised at higher temperature, whereas samples austenitised at lower temperature were fully recrystallised. The influence of solute drag and particle pinning effects on the recrvstallisation rate is discussed.

机译：对于含0.081C-0.021Ti-0.064Nb（重量％）的钢，研究了奥氏体化温度和奥氏体变形温度对Nb析出和再结晶动力学的影响。奥氏体的晶粒结构与Nb原子的团聚和析出的分散特性有关。无论奥氏体化温度如何，在1075℃下变形至0.75应变都会产生完全重结晶的显微组织。在975℃下变形后，在较高温度下奥氏体化的样品仅观察到部分重结晶，而在较低温度下奥氏体化的样品则完全重结晶。讨论了溶质阻力和颗粒钉扎效应对再结晶速率的影响。

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来源
《Recrystallization and grain growth V》|2013年|431-434|共4页
会议地点 Sydney(AU)
作者
Andrii G. Kostryzhev; Abdullah Al Shahrani; Chen Zhu; Simon P. Ringer; Elena V. Pereloma;
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作者单位

School of Mechanical, Materials and Mechatronic Engineering, Faculty of Engineering, University of Wollongong, NSW 2500, Australia;

School of Mechanical, Materials and Mechatronic Engineering, Faculty of Engineering, University of Wollongong, NSW 2500, Australia;

Australian Centre for Microscopy and Microanalysis, and School of Aerospace, Mechanical and Mechatronic Engineering, The University of Sydney, NSW 2006, Australia;

Australian Centre for Microscopy and Microanalysis, and School of Aerospace, Mechanical and Mechatronic Engineering, The University of Sydney, NSW 2006, Australia;

School of Mechanical, Materials and Mechatronic Engineering, Faculty of Engineering, University of Wollongong, NSW 2500, Australia;

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原文格式 PDF
正文语种 eng
中图分类
关键词
thermo-mechanical processing; precipitation; recrystallisation; microalloyed steel;

机译：热机械加工；沉淀;重结晶微合金钢;

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专利

1. Effect of austenitising and deformation temperatures on dynamic recrystallisation in Nb-Ti microailoyed steel [J] . Andrii G. Kostryzhev, Abdullah Al Shahrani, Chen Zhu, Materials science forum . 2013,第期

机译：奥氏体化和变形温度对Nb-Ti微合金钢动态再结晶的影响
2. Effect of deformation parameters and reheating temperature on the non-recrystallisation temperature in Nb and Nb-Ti microalloyed steels [J] . Raquel Abad Lera, Ana Isabel Fernandez Calvo, Beatriz Lopez Soria Revista de metalurgia . 2001,第1期

机译：变形参数和再加热温度对Nb和Nb-Ti微合金钢非再结晶温度的影响
3. Effect of deformation temperature on niobium clustering, precipitation and austenite recrystallisation in a Nb-Ti microalloyed steel [J] . Andrii G. Kostryzhev, Abdullah Al Shahrani, Chen Zhu, Materials Science and Engineering . 2013,第octa1期

机译：变形温度对Nb-Ti微合金钢中铌聚集，析出和奥氏体再结晶的影响
4. Effect of austenitising and deformation temperatures on dynamic recrystallisation in Nb-Ti microalloyed steel [C] . Andrii G. Kostryzhev, Abdullah Al Shahrani, Chen Zhu, International conference on recrystallization and grain growth . 2013

机译：奥氏体化和变形温度对Nb-Ti微合金钢的动态重结晶的影响
5. The effect of very high temperature deformation on the hot ductility of a vanadium-microalloyed steel. [D] . Rezaeian, Ahmad. 2008

机译：高温变形对钒微合金钢的热延展性的影响。
6. Full-Field Strain Measurement and Numerical Analysis of a Microalloyed Steel Subjected to Deformation with Strain Path Change [O] . Paulina Lisiecka-Graca, Janusz Majta, Krzysztof Muszka 2020

机译：具有应变路径变形的微合金钢的全场应变测量和数值分析
7. Effect of austenitising and deformation temperatures on dynamic recrystallisation in Nb-Ti microalloyed steel [O] . Kostryzhev, Andrii G, Al Shahrani, Abdullah, Zhu, Chen, 2013

机译：奥氏体化和变形温度对Nb-Ti微合金钢动态再结晶的影响

Effect of austenitising and deformation temperatures on dynamic recrystallisation in Nb-Ti microalloyed steel

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