Enhanced ductility in dynamic strain aging regime in a Fe-25Ni-20Cr austenitic stainless steel

Abdullah S. Alomari; N. Kumar; K.L. Murty

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Enhanced ductility in dynamic strain aging regime in a Fe-25Ni-20Cr austenitic stainless steel

机译：Fe-25Ni-20Cr奥氏体不锈钢在动态应变时效过程中延展性的提高

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Contrary to the commonly observed embrittlement during dynamic strain aging, we report in this note distinct enhancement in ductility in a Nb-containing and nitrogen stabilized Fe-25(wt%)Ni-20Cr austenitic stainless steel (Alloy 709) at temperatures from 623 K to 873 K at 10−4s−1where serrated flow is noted. This observation is rationalized in terms of the influence of strain hardening parameters and strain rate sensitivity on uniform elongation and ductility respectively.

机译：与动态应变时效过程中通常观察到的脆化相反，我们在本报告中指出，在623 K的温度下，含Nb和氮稳定的Fe-25（wt％）Ni-20Cr奥氏体不锈钢（合金709）的延展性显着增强到873 K在10−4s−1处出现锯齿状流动。根据应变硬化参数和应变率敏感性分别对均匀伸长率和延展性的影响，使该观察合理化。

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来源
《Materials Science and Engineering》 |2018年第27期|157-160|共4页
作者
Abdullah S. Alomari; N. Kumar; K.L. Murty;
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作者单位

Department of Nuclear Engineering, North Carolina State University,Atomic Energy Research Institute, King Abdulaziz City for Science and Technology;

Department of Nuclear Engineering, North Carolina State University;

Department of Nuclear Engineering, North Carolina State University;

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正文语种 eng
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关键词
Ductility; Austenitic steels; Dynamic strain aging; High temperature deformation;

机译：延展性;奥氏体钢;动态应变时效;高温变形;

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1. A modified multi-gene genetic programming approach for modelling true stress of dynamic strain aging regime of austenitic stainless steel 304 [J] . A. Garg, K. Tai, A. K. Gupta Meccanica: Journal of the Italian Association of Theoretical and Applied Mechanics . 2014,第5期

机译：改进的多基因遗传规划方法，用于模拟奥氏体304不锈钢动态应变时效机制的真实应力
2. Development of constitutive models for dynamic strain aging regime in Austenitic stainless steel 304 [J] . Amit Kumar Gupta, Hansoge Nitin Krishnamurthy, Yashjeet Singh, Materials & design . 2013,第Mara期

机译：奥氏体304不锈钢动态应变时效本构模型的建立
3. Prediction of flow stress in dynamic strain aging regime of austenitic stainless steel 316 using artificial neural network [J] . Amit Kumar Gupta, Swadesh Kumar Singh, Swathi Reddy, Materials & design . 2012,第Mara期

机译：人工神经网络预测奥氏体316不锈钢动态应变时效过程中的流应力
4. Hydrogen-Induced Ductility Loss of Austenitic Stainless Steels for Slow Strain Rate Tensile Testing in High-Pressure Hydrogen Gas [C] . Saburo Matsuoka, Junichiro Yamabe, Hisao Matsunaga International Conference on Materials Structure Micromechanics of Fracture . 2017

机译：高压氢气中慢应变速率拉伸试验的奥氏体不锈钢的促进延展性损失
5. Static and dynamic strain aging of 304 stainless steel at high temperatures. [D] . Lobo, David Jonathan. 2001

机译：304不锈钢在高温下的静态和动态应变时效。
6. Role of Hydrogen-Charging on Nucleation and Growth of Ductile Damage in Austenitic Stainless Steels [O] . Eric Maire, Stanislas Grabon, Jérôme Adrien, 2019

机译：充氢在奥氏体不锈钢中的形核和延展性的增长中的作用
7. Segregation-Induced Enhancement of Low-Temperature Tensile Ductility in a Cast High-Nitrogen Austenitic Stainless Steel Exhibiting Deformation-Induced α′ Martensite Formation [O] . Javad Mola, Marco Wendler, Andreas Weiß, 2015

机译：分离诱导铸造高氮奥氏体不锈钢中低温拉伸延展性的增强表现出变形诱导的α'马氏体形成

Enhanced ductility in dynamic strain aging regime in a Fe-25Ni-20Cr austenitic stainless steel

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