Enhancing torsion fatigue behaviour of a martensitic stainless steel by generating gradient nanograined layer via surface mechanical grinding treatment

H. W. Huang; Z. B. Wang; X. P. Yong

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Enhancing torsion fatigue behaviour of a martensitic stainless steel by generating gradient nanograined layer via surface mechanical grinding treatment

机译：通过表面机械研磨处理产生梯度纳米晶粒层来增强马氏体不锈钢的扭转疲劳行为

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A gradient nanograined (GNG) surface layer was formed on a martensitic stainless steel bar sample by means of the surface mechanical grinding treatment (SMGT). The average grain size is —25 nm on the topmost surface layer and increases gradually with increasing depth. The torsion fatigue strength is elevated by 38% with the GNG surface layer compared with the original material. An additional 8% increment in fatigue strength is achieved after a post-annealing treatment of the SMGT sample. By analysing the microstructure, hardness, surface roughness and residual stress distribution in the SMGT samples, we believe that the enhanced fatigue resistances originate from the GNG structure with a hard surface layer and a high structural homogeneity.

机译：通过表面机械研磨处理（SMGT）在马氏体不锈钢棒样品上形成了梯度纳米颗粒（GNG）表面层。最表层的平均晶粒尺寸为25 nm，并随深度的增加而逐渐增加。与原始材料相比，GNG表面层的扭转疲劳强度提高了38％。 SMGT样品经过退火处理后，疲劳强度又增加了8％。通过分析SMGT样品的微观结构，硬度，表面粗糙度和残余应力分布，我们认为增强的抗疲劳性源自具有硬表面层和高结构均质性的GNG结构。

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《Materials Science and Technology: MST: A publication of the Institute of Metals》 |2013年第10期|共6页
作者
H. W. Huang; Z. B. Wang; X. P. Yong;
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正文语种 eng
中图分类 71.22;
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Nanostructured materials; Gradient nanograined; Surface mechanical grinding treatment; Martensitic stainless steel; Torsion fatigue;

机译：纳米材料;梯度纳米粒;表面机械研磨处理;马氏体不锈钢;扭转疲劳;

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1. Enhancing torsion fatigue behaviour of a martensitic stainless steel by generating gradient nanograined layer via surface mechanical grinding treatment [J] . H. W. Huang, Z. B. Wang, X. P. Yong Materials Science and Technology: MST: A publication of the Institute of Metals . 2013,第10期

机译：通过表面机械研磨处理产生梯度纳米晶粒层来增强马氏体不锈钢的扭转疲劳行为
2. Use of a Micromagnetic Nondestructive Test in the Evaluation of the α’-Martensitic Transformation Generated in the Mechanical Fatigue Process of the AISI 304L Stainless Steel [J] . Gimenez C Roberto M., Franco G Freddy A., Farina Paula E. S. IEEE Transactions on Magnetics . 2020,第9期

机译：在AISI 304L不锈钢机械疲劳过程中产生的微磁无损检测在评估中产生的α'-马氏体变换
3. Ductility enhancement of layered stainless steel with nanograined interface layers [J] . Guo X., Weng G.J., Soh A.K. Computational Materials Science . 2012,第Null期

机译：具有纳米颗粒界面层的层状不锈钢的延展性增强
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机译：316L不锈钢与纳米结构表面层诱导的316L不锈钢机械性能
5. FATIGUE LIFE, CRACK INITIATION, AND PROPAGATION OF 304 STAINLESS STEEL WITH NON-PROPORTIONAL AXIAL-TORSIONAL STRAIN-PATHS. [D] . YANG, CHWEN-CHIH. 1984

机译：具有非比例轴向扭转应变路径的304不锈钢的疲劳寿命，裂纹萌生和扩展。
6. Microstructure Evolution and Mechanical Properties of Austenite Stainless Steel with Gradient Twinned Structure by Surface Mechanical Attrition Treatment [O] . Aiying Chen, Chen Wang, Jungan Jiang, 2021

机译：表面机械磨损处理与梯度孪晶结构奥氏体不锈钢的微观结构演化与力学性能
7. Ductility enhancement of layered stainless steel with nanograined interface layers [O] . Soh AK, Guo X, Weng GJ 2012

机译：具有纳米颗粒界面层的层状不锈钢的延展性增强

Enhancing torsion fatigue behaviour of a martensitic stainless steel by generating gradient nanograined layer via surface mechanical grinding treatment

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