Softening Mechanisms and Microstructural Evolution in a Low Stacking Fault Energy Material Between Warm and Hot Working Temperatures

Arunkumar G.; Aashranth B.; Samantaray Dipti; Borah Utpal; Albert Shaju K.; Bhaduri A. K.

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Softening Mechanisms and Microstructural Evolution in a Low Stacking Fault Energy Material Between Warm and Hot Working Temperatures

机译：温暖和热工作温度之间的低堆叠故障能量材料中的软化机制和微观结构演化

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A low stacking fault energy material is subjected to warm working as well as hot working, i.e. in the temperature range 873K (600 degrees C)-1173K (900 degrees C). The evolution of microstructure is quantified using average grain size and grain size distributions. The microstructural transitions resulting from continuous dynamic recrystallization and discontinuous dynamic recrystallization are examined. The resultant softening is studied using macro- and micro-indentation experiments. The applicability of empirical relations between hardness and microstructural parameters is critically examined. The SFE at each of these temperatures is evaluated using a thermodynamic model and correlated with the softening mechanism.

机译：对低堆叠故障能量材料进行温暖的工作以及热加工，即在873K（600℃）-1173k（900℃）的温度范围内。使用平均晶粒尺寸和晶粒尺寸分布量化微观结构的演化。检查由连续的动态再结晶和不连续的动态再结晶产生的微观结构转变。使用宏观和微压痕实验研究所得到的软化。严重检查硬度和微观结构参数之间的实证关系的适用性。使用热力学模型评估这些温度中的每一个的SFE，并与软化机制相关。

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来源
《Transactions of the Indian Institute of Metals》 |2019年第6期|共4页
作者
Arunkumar G.; Aashranth B.; Samantaray Dipti; Borah Utpal; Albert Shaju K.; Bhaduri A. K.;
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作者单位

Homi Bhabha Natl Inst Mumbai Maharashtra India;

Indira Gandhi Ctr Atom Res Kalpakkam Tamil Nadu India;

Homi Bhabha Natl Inst Mumbai Maharashtra India;

Indira Gandhi Ctr Atom Res Kalpakkam Tamil Nadu India;

Homi Bhabha Natl Inst Mumbai Maharashtra India;

Homi Bhabha Natl Inst Mumbai Maharashtra India;

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正文语种 eng
中图分类冶金工业;
关键词
Austenitic stainless steel; Compression test; Continuous and discontinuous recrystallization; Stacking fault energy;

机译：奥氏体不锈钢;压缩试验;连续和不连续的重结晶;堆叠故障能量;

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1. Softening Mechanisms and Microstructural Evolution in a Low Stacking Fault Energy Material Between Warm and Hot Working Temperatures [J] . Arunkumar G., Aashranth B., Samantaray Dipti, Transactions of the Indian Institute of Metals . 2019,第6期

机译：温暖和热工作温度之间的低堆叠故障能量材料中的软化机制和微观结构演化
2. Softening and Microstructural Coarsening without Twin Formation In FCC Metals with Low Stacking Fault Energy after Processing by High-Pressure Torsion [J] . Hirotaka Matsunaga, Zenji Horita Materials transactions . 2009,第7期

机译：高压扭转加工后具有低堆垛层错能量的FCC金属中没有孪晶形成的软化和组织粗化
3. Effect of stacking fault energy and strain rate on the microstructural evolution during room temperature tensile testing in Cu and Cu-Al dilute alloys [J] . V. Caballero Journal of Materials Science . 1999,第3期

机译：Cu和Cu-Al稀合金室温拉伸试验中堆垛层错能和应变速率对组织演变的影响
4. Mechanisms In Creep And Hot Working To High Strain; Microstructural Evidence, Inconsistencies Part I: Substructure Evolution; Grain Interactions [C] . H. J. McQueen Materials Science Technology Conference and Exhibition . 2009

机译：蠕变和高菌株的机制;微观结构证据，不一致的第I部分：子结构演变;粮食互动
5. Failure Mechanisms in Tribological Coatings and Energy Materials Subjected to Different Environments and Temperatures [D] . Sun, Guanhong. 2018

机译：摩擦涂层和能量材料在不同环境和温度下的失效机理
6. Microstructural Evolution and Dynamic Softening Mechanisms of Al-Zn-Mg-Cu Alloy during Hot Compressive Deformation [O] . Cangji Shi, Jing Lai, X.-Grant Chen 2014

机译：Al-Zn-Mg-Cu合金热压变形过程中的组织演变及动态软化机理
7. Microstructural evolution and dynamic softening mechanisms of Al-Zn-Mg-Cu alloy during hot compressive deformation [O] . Shi Cangji, Lai Jing, Chen X-Grant 2014

机译：Al-Zn-Mg-Cu合金热压缩变形过程中的组织演变及动态软化机理
8. Softening mechanisms and microstructural instabilities during high temperature, low cycle fatigue of Ni, Ni3Al and their metal matrix composites. Progress report, June 1, 1990-September 30, 1990. [R] . D. S. Grummon G. Gottstein 1990

机译：Ni，Ni3al及其金属基复合材料高温，低周疲劳过程中的软化机制和显微组织不稳定性。进展报告，1990年6月1日至1990年9月30日。

Softening Mechanisms and Microstructural Evolution in a Low Stacking Fault Energy Material Between Warm and Hot Working Temperatures

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