Effect of Solution Carbon and Retained Austenite Films on the Development of Deformation Structures of Low-Carbon Lath Martensite

Shigekazu Morito; Takuya Ohba; Ananda Kurmar Das; Taisuke Hayashi; Mai Yoshida

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Effect of Solution Carbon and Retained Austenite Films on the Development of Deformation Structures of Low-Carbon Lath Martensite

机译：固溶碳和残余奥氏体膜对低碳板条马氏体变形结构发展的影响

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The deformation structure of low-carbon lath martensitic steels was analysed by transmission electron microscopy with Kikuchi pattern analysis. Retained austenite films on the martensite lath boundaries are transformed into high-carbon martensite films by light deformation. These high-carbon martensite films protect the martensite lath boundaries from reconstruction. Specific deformation structures of low-carbon lath martensite, such as kinked laths, irregularly bent lamellas and lamellar dislocation cells, were thus formed. Tempered lath martensite structures without retained austenite films easily disappeared by light deformation. The relationship between mechanical properties, such as the work-hardening ratio, and the development of the deformation structure was also clarified.

机译：低碳板条马氏体钢的变形结构通过透射电子显微镜和菊池模式分析。马氏体板条边界上的残余奥氏体膜通过光变形而转变为高碳马氏体膜。这些高碳马氏体薄膜可保护马氏体板条边界不被重建。这样就形成了低碳板条马氏体的特定变形结构，例如扭结板条，不规则弯曲的薄层和层状位错单元。没有残留奥氏体膜的回火板条马氏体组织容易因光变形而消失。还阐明了加工硬化率等机械性能与变形组织的发展之间的关系。

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《ISIJ international》 |2013年第12期|共7页
作者
Shigekazu Morito; Takuya Ohba; Ananda Kurmar Das; Taisuke Hayashi; Mai Yoshida;
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中图分类钢铁冶炼（黑色金属冶炼）（总论）;
关键词
lath martensitecold rollingdeformation structuretransmission electron microscopy/Kikuchi patterncrystallographylow-carbon low-alloy steels;

机译：板条马氏体冷轧变形组织透射电子显微镜/菊池图案晶体学低碳低合金钢;

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1. Effect of Solution Carbon and Retained Austenite Films on the Development of Deformation Structures of Low-Carbon Lath Martensite [J] . Shigekazu MORITO, Takuya OHBA, Ananda Kurmar DAS, ISIJ international . 2013,第12期

机译：固溶碳和残余奥氏体膜对低碳板条马氏体变形结构发展的影响
2. Carbon Enrichment in Retained Austenite Films in Low Carbon Lath Martensite Steel [J] . Shigekazu MORITO, Keiichiro OH-ISHI, Kazuhiro HONO, ISIJ international . 2011,第7期

机译：低碳板条马氏体钢中残余奥氏体膜中的碳富集
3. Carbon Enrichment in Retained Austenite Films in Low Carbon Lath Martensite Steel [J] . Shigekazu Morito, Keiichiro Oh-ishi, Kazuhiro Hono, ISIJ international . 2011,第7期

机译：低碳板条马氏体钢中残余奥氏体膜中的碳富集
4. (325-0604)Microstructure of prior-austenite reconstructed from lath martensite in high carbon steels [C] . A.H. PHAM, Takuya OHBA, Shigekazu MORITO 日本金属学会秋期大会 . 2013

机译：（325-0604）从高碳钢的Lath Martensite重建前奥氏体的微观结构
5. CRYSTALLOGRAPHY OF "LATH MARTENSITE" AND STABILIZATION OF RETAINED AUSTENITE. [D] . SARIKAYA, MEHMET. 1982

机译：“板条马氏体”的晶体学和残余奥氏体的稳定化。
6. Lath formation mechanisms and twinning as lath martensite substructures in an ultra low-carbon iron alloy [O] . D. H. Ping, S. Q. Guo, M. Imura, -1

机译：超低碳铁合金的板条形成机理和孪晶化为板条马氏体亚结构
7. Effect of Solution Carbon and Retained Austenite Films on the Development of Deformation Structures of Low-Carbon Lath Martensite [O] . Shigekazu Morito, Takuya Ohba, Ananda Kurmar Das, 2013

机译：溶液碳和保留奥氏体膜对低碳马氏体变形结构的影响

Effect of Solution Carbon and Retained Austenite Films on the Development of Deformation Structures of Low-Carbon Lath Martensite

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