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INVESTIGATION ON THE INTRINSIC PLASTICITY OF GRADIENT NANO-GRAINED AISI 304 STAINLESS STEEL TREATED BY ULTRASONIC IMPACT TREATMENT

机译：超声冲击处理对梯度纳米AISI 304不锈钢的内在塑性进行研究

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The gradient nano-grained (GNG) structure was formed on the top layer of AISI 304 with coarse grains (CG) by ultrasonic impact treatment. The impact velocity was 5 m/s and the coverage was changed from 3000% to 15000% to obtain different microstructure GNG /CG materials. The tensile test and small punch test were also performed to investigate the uniaxial and biaxial deformation behaviors of the GNG / CG materials. The results showed that the yield strength as was enhanced in both uniaxial and biaxial deformation conditions. But the tensile strength ab was not nearly changed. The tensile fracture appeared to be dimple. The size of the dimples changed with gradient from the treated surface to the matrix. The strain localization was effectively suppressed in both conditions. AISI 304 of GNG / CG structure was elastically homogeneous but plastically gradient which offered unusual mechanical responses. So the GNG / CG 304 showed intrinsic plasticity like coarse grain one.

机译：通过超声冲击处理，在具有粗大晶粒（CG）的AISI 304的顶层上形成了梯度纳米晶粒（GNG）结构。冲击速度为5 m / s，覆盖率从3000％更改为15000％，以获得不同的微结构GNG / CG材料。还进行了拉伸试验和小冲模试验，以研究GNG / CG材料的单轴和双轴变形行为。结果表明，在单轴和双轴变形条件下，屈服强度均得到提高。但是抗张强度ab几乎没有变化。拉伸断裂似乎是酒窝。凹坑的尺寸随着从被处理表面到基质的梯度变化而变化。在两种情况下均有效地抑制了应变局部化。 GNG / CG结构的AISI 304弹性均匀，但塑性梯度却提供了不同寻常的机械响应。因此，GNG / CG 304表现出固有的可塑性，就像一种粗晶粒。

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《ASME Pressure Vessels and Piping conference》|2014年|V06AT06A009.1-V06AT06A009.5|共5页
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Xinjun Yang; Xiang Ling; Sisheng Yang; Shuhua Lu;
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gradient nano-grained structure; intrinsic plasticity; small punch test; AISI 304 stainless steel;

机译：梯度纳米晶粒结构内在可塑性小冲头测试; AISI 304不锈钢;

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1. Enhanced mechanical behaviors of gradient nano-grained austenite stainless steel by means of ultrasonic impact treatment [J] . Xinjun Yang, Xinyue Wang, Xiang Ling, Results in Physics . 2017,第1期

机译：超声冲击处理提高梯度纳米晶粒奥氏体不锈钢的力学性能
2. Inverse surface integrity problem in ultrasonic impact-treated AISI 304 stainless steel components [J] . Wang G. Q., Zhu X. P., Lei M. K., The International Journal of Advanced Manufacturing Technology . 2016,第5a8期

机译：超声波抗冲击处理AISI 304不锈钢组分的逆表面完整性问题
3. Interactions between Surface Integrity Parameters on AISI 304 Austenitic Stainless Steel Components by Ultrasonic Impact Treatment [J] . G.Q. Wang, M.K. Lei, D.M. Guo Procedia CIRP . 2016,第2期

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4. Interactions between surface integrity parameters on AISI 304 austenitic stainless steel components by ultrasonic impact treatment [C] . G. Q. Wang, M. K. Lei, D. M. Guo CIRP Conference on Surface Integrity . 2016

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5. Experimental investigations of rate-dependent behavior of AISI Type 304 Stainless Steel at room and elevated temperatures. [D] . Ruggles, Marina B. 1987

机译：在室温和高温下AISI 304不锈钢的速率依赖性行为的实验研究。
6. Structural and Micromechanical Properties of Nd:YAG Laser Marking Stainless Steel (AISI 304 and AISI 316) [O] . Piotr Dywel, Robert Szczesny, Piotr Domanowski, 2020

机译：Nd：YAG激光打标不锈钢（AISI 304和AISI 316）的结构和微机械性能
7. Enhanced mechanical behaviors of gradient nano-grained austenite stainless steel by means of ultrasonic impact treatment [O] . Xinjun Yang, Xinyue Wang, Xiang Ling, 2017

机译：超声冲击处理梯度纳米晶奥氏体不锈钢的力学性能增强

INVESTIGATION ON THE INTRINSIC PLASTICITY OF GRADIENT NANO-GRAINED AISI 304 STAINLESS STEEL TREATED BY ULTRASONIC IMPACT TREATMENT

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