Mechanical properties of ultra fine-grained HSLA and Ti-IF steels

J. Majta; K. Muszka

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Mechanical properties of ultra fine-grained HSLA and Ti-IF steels

机译：超细晶粒HSLA和Ti-IF钢的机械性能

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摘要

To study strengthening phenomena in ultra fine structures of metals we employed the MaxStrain system to analyze the correlation between parameters of thermomechanical processing and grain refinement of HSLA and Ti-aided interstitial free steels. The mechanical properties of the investigated, ultra fine-grained steels are a combination of strengthening due to grain boundary, dislocation structures (dislocation arrangement, cell structure) and solid solution. It was found that cell boundaries are more difficult to achieve in HSLA than in Ti-IF steel because of much lower mobility of the dislocations and grain boundaries. An important result is the observation that total strain >5 does not cause any further improvement in the mechanical properties of the investigated steels.

机译：为了研究金属超细结构中的强化现象，我们使用MaxStrain系统分析了HSLA和Ti辅助间隙自由钢的热机械加工参数与晶粒细化之间的相关性。所研究的超细晶粒钢的机械性能是由于晶界，位错结构（位错排列，晶胞结构）和固溶体而引起的强化结合。已经发现，由于位错和晶界的迁移率要低得多，因此在HSLA中比Ti-IF钢更难以实现晶界。一个重要的结果是观察到，总应变> 5不会导致所研究钢材的机械性能进一步改善。

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来源
《Materials Science and Engineering. A, Structural Materials: Properties, Microstructure and Processing》 |2007年第2期|p.186-191|共6页
作者
J. Majta; K. Muszka;
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作者单位

Metals Engineering and Industrial Computer Science Department, AGH University of Science and Technology, Mickiewicza 30, 30-059 Krakow, Poland;

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原文格式 PDF
正文语种 eng
中图分类工程材料学;
关键词
ultra fine-grained structure; mechanical properties; HSLA; Ti-IF steel;

机译：超细组织;力学性能;HSLA;Ti-IF钢;

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专利

1. Mechanical Properties and Microstructures of Ferritic-Rolled Ultra-Low Carbon (ULC) and Ti-Stabilized Interstitial-Free (Ti-IF) Steels [J] . Futao HAN, Zuocheng WANG, Cainian JING, Key Engineering Materials . 2007,第Pt3期

机译：铁素体轧制超低碳（ULC）和钛稳定无间隙（Ti-IF）钢的力学性能和显微组织
2. Microstructure, Mechanical Properties and Failure Mechanisms of Resistance Spot Welding Joints between Ultra High Strength Steel 22MnB5 and Galvanized Steel HSLA350 [J] . Liang Xuebo, Yuan Xinjian, Wang Haodong, International Journal of Precision Engineering and Manufacturing . 2016,第12期

机译：超高强度钢22MnB5与镀锌钢HSLA350之间的电阻点焊接头的组织，力学性能和破坏机理
3. Mechanical properties of ultra fine-grained steel with (ferrite＋cementite) two-phase structure [J] . 飞鹰秀幸, 高木节雄材料とプロセス: 日本鉄鋼協会講演論文集 . 1999,第6期

机译：铁素体+渗碳体两相结构超细晶粒钢的力学性能
4. Mechanical Properties and Microstructures of Ferritic-Rolled Ultra-Low Carbon (ULC) and Ti-Stabilized Interstitial-Free (Ti-IF) Steels [C] . Futao HAN, Zuocheng WANG, Cainian JING, Asian Pacific Conference on Fracture and Strength . 2007

机译：铁素体轧制超低碳（ULC）和Ti稳定间隙（Ti-If）钢的机械性能和微观结构
5. Microstructure and properties of ultra low carbon bainitic steel weld metal for HSLA-100. [D] . Singh, Daya. 1996

机译：HSLA-100的超低碳贝氏体钢焊缝金属的组织和性能。
6. Synergetic Effects of Ferrite Content and Tempering Temperature on Mechanical Properties of a 960 MPa Grade HSLA Steel [O] . Shaoyang Wang, Hao Yu, Tao Zhou, 2018

机译：铁素体含量和回火温度对960 MPa级HSLA钢力学性能的协同效应
7. Effects of strain rate on work hardening of HSLA and Ti-IF steels Wpływ prędkości odkształcenia na umocnienie stali HSLA i Ti-IF / [O] . Stefańska-Kądziela, Monika. 2006

机译：应变速率对HSLA和Ti-IF钢加工硬化的影响应变速度对HSLA和Ti-IF钢的强化的影响/

Mechanical properties of ultra fine-grained HSLA and Ti-IF steels

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