Novel thermomechanical processing methods for achieving ultragrain refinement of low-carbon steel without heavy plastic deformation

Lijia Zhao; Nokeun Park; Yanzhong Tian; Shuai Chen; Akinobu Shibata; Nobuhiro Tsuji

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Novel thermomechanical processing methods for achieving ultragrain refinement of low-carbon steel without heavy plastic deformation

机译：新型热机械加工方法，可实现低碳钢的超晶粒细化而不会发生大的塑性变形

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Two novel two-step thermomechanical routes were developed to produce ultrafine-grained ferrite microstructures in a 10Ni–0.1C steel without high-strain deformation. Homogeneous ultrafine ferrite (UFF) structures having mean grain sizes down to 460?nm were fabricated by a total equivalent strain of 0.92 and exhibited high yield strength of 820?MPa with large uniform elongation of 10% and total elongation of 29%. The formation of UFF was attributed to two different phenomena, i.e. dynamic transformation from austenite to ferrite and dynamic recrystallization of ferrite.

机译：开发了两种新颖的两步热机械路线，以在没有高应变变形的情况下在10Ni-0.1C钢中产生超细晶粒的铁素体微结构。平均等效应变为0.92，可制造出平均晶粒度低至460？nm的均质超细铁素体（UFF）结构，并具有820？MPa的高屈服强度，10％的大均匀伸长率和29％的总伸长率。 UFF的形成归因于两种不同的现象，即从奥氏体到铁素体的动态转变和铁素体的动态再结晶。

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《Materials Research Letters》 |2017年第1期|共8页
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Lijia Zhao; Nokeun Park; Yanzhong Tian; Shuai Chen; Akinobu Shibata; Nobuhiro Tsuji;
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1. Ferrite grain size refinement by heavy deformation during accelerated cooling in low-carbon steel [J] . Yoshitaka Adachi, Toshiro Tomida, Shigeharu Hinotani 鉄と鋼／Journal of the Iron and Steel Institute of Japan. . 1999,第8期

机译：低碳钢在加速冷却过程中通过剧烈变形来细化铁素体晶粒尺寸
2. Ferrite grain size refinement by heavy deformation during accelerated cooling in low-carbon steel [J] . Yoshitaka Adachi, Toshiro Tomida, Shigeharu Hinotani 鉄と鋼／Journal of the Iron and Steel Institute of Japan. . 1999,第8期

机译：在低碳钢加速冷却过程中，铁氧体晶粒尺寸通过重型变形改进
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机译：通过严重的塑性变形实现出色的晶粒细化：改进加工技术的新方法
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机译：严重塑性变形加工期间低碳钢动态应变老化的特征
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机译：热力学历史对铌钛微合金钢和低碳钢热延展性的影响。
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机译：一种监测低碳钢膜在经受变形的宽带FMR现象的系统
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机译：铁氧体晶粒尺寸在低碳钢加速冷却过程中通过重型变形改造
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机译：高速塑性变形过程中热机械耦合强度的研究

Novel thermomechanical processing methods for achieving ultragrain refinement of low-carbon steel without heavy plastic deformation

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