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EVOLUTION LAW OF GRAIN SIZE OF HIGH ALLOY GEAR STEEL IN HOT DEFORMATION

机译：热变形高合金齿轮钢晶粒尺寸的演化法

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The change rules of defoiTnation parameters such as temperature, strain and strain rate at different zones of forgings are very complex in the forging process of high alloy chromium-cobalt gear steel, and the deformation parameters have great influence on grain sizes. In this paper, recrystallization model for the steel was established with the material characteristic parameters obtained from the Gleeble isothermal compression test, influencing factors were analyzed based on the model The results indicate that recrystallization grain size increases with increasing temperature and decreasing strain and strain rate, and the effect of temperature is more obvious than the other two. The average grain sizes are between 27.7μm~40μm at 1040°C of forging temperature, grain size degree 6-6.5, meeting the product requirements.

机译：在高合金铬 - 钴齿轮钢的锻造过程中，不同区域的温度，应变和应变速率等变化规则如高合金铬 - 钴齿轮钢的锻造过程中非常复杂，并且变形参数对晶粒尺寸有很大影响。在本文中，利用从GLEEBLE等温压缩试验获得的材料特征参数建立了钢的重结晶模型，基于模型分析了影响因素，结果表明，再结晶晶粒尺寸随着温度的增加和减小的应变和应变率而增加，温度的效果比另外两个更明显。平均晶粒尺寸在1040°C的锻造温度下为27.7μm〜40μm，粒度为6-6.5度，满足产品要求。

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《TMS Annual Meeting and Exhibition》|2016年|xv 804p|共6页
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作者
TANG Hai-yan; YANG Mao-sheng; MENG Wen-jia;
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原文格式 PDF
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中图分类 TB3-532;
关键词
Gear steel; Recrystallization; Grain size;

机译：齿轮;重结晶;晶粒尺寸;

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2. Using a composite flow law to model deformation in the NEEM deep ice core, Greenland – Part 1: The role of grain size and grain size distribution on deformation of the upper 2207m [J] . Kuiper Ernst-Jan N., Weikusat Ilka, de Bresser Johannes H. P., The Cryosphere Discussions . 2020,第7期

机译：使用复合流法在Meem Beee Ice Ice Ice In Ice Ice核心模型变形 - 第1部分：晶粒尺寸和粒度分布对2207M的变形作用
3. Using a composite flow law to model deformation in the NEEM deep ice core, Greenland – Part 1: The role of grain size and grain size distribution on deformation of the upper 2207 m [J] . Ernst-Jan N. Kuiper, Ilka Weikusat, Johannes H. P. de Bresser, The Cryosphere . 2020,第7期

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4. EVOLUTION LAW OF GRAIN SIZE OF HIGH ALLOY GEAR STEEL IN HOT DEFORMATION [C] . TANG Hai-yan, YANG Mao-sheng, MENG Wen-jia, TMS annual meeting exhibition . 2016

机译：高合金齿轮钢热变形时晶粒尺寸的演变规律
5. The Interplay between Grain Size and Austenite Stability on Deformation Behavior of High Strength-High Ductility Combination Nanostructured Stainless Steel. [D] . Challa, Venkata Sai Ananth. 2017

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6. Microstructure Evolution during Hot Deformation of UNS S32750 Super-Duplex Stainless Steel Alloy [O] . Elisabeta Mirela Cojocaru, Anna Nocivin, Doina Răducanu, 2021

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7. The Effects of Hot Deformation Parameters on the Size of Dynamically Recrystallised Austenite Grains of HSLA Steel [O] . Sebastian Gnapowski, Marek Opiela, Elżbieta Kalinowska-Ozgowicz, 2020

机译：热变形参数对HSLA钢动态再结晶奥氏体晶粒尺寸的影响

EVOLUTION LAW OF GRAIN SIZE OF HIGH ALLOY GEAR STEEL IN HOT DEFORMATION

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