Friction and Wear Mechanisms of 316L Stainless Steel in Dry Sliding Contact: Effect of Abrasive Particle Size

Jourani A.; Bouvier S.

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Friction and Wear Mechanisms of 316L Stainless Steel in Dry Sliding Contact: Effect of Abrasive Particle Size

机译：316L不锈钢在干式滑动接触中的摩擦磨损机理：磨料粒度的影响

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The present work investigates the dry sliding friction and wear behavior of 316L austenitic stainless steel. Wear tests are performed on a pin-on-plane configuration against abrasive silicon carbide grains ranging from very large (200 mu m) to small (15 mu m) particles. The experiments are conducted at room temperature under different normal loads of 25-75 N. The wear damage mechanisms and wear debris are analysed using scanning electron microscope (SEM) observations. It is shown that for small abrasive particles, the friction coefficients increase with increasing normal load. However, for large abrasive particles, a reverse trend is observed. This difference is partly explained by a change in wear mechanisms.

机译：本工作研究了316L奥氏体不锈钢的干滑动摩擦和磨损行为。磨损测试是在销钉平面配置上对从非常大（200μm）到很小（15μm）的磨料碳化硅晶粒进行的。实验是在室温下在25-75 N的不同正常载荷下进行的。使用扫描电子显微镜（SEM）观察结果分析了磨损破坏机理和磨损碎片。结果表明，对于较小的磨料颗粒，摩擦系数随法向载荷的增加而增加。但是，对于较大的磨料颗粒，观察到相反的趋势。这种差异部分是由磨损机制的变化所解释的。

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来源
《Tribology Transactions》 |2015年第1期|共9页
作者
Jourani A.; Bouvier S.;
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正文语种 eng
中图分类机械摩擦、磨损与润滑;
关键词
Friction; Wear; 316L Stainless Steel; Roughness; Fractal Dimension;

机译：摩擦;磨损;316L不锈钢;粗糙度;分形尺寸;

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1. Friction and Wear Mechanisms of 316L Stainless Steel in Dry Sliding Contact: Effect of Abrasive Particle Size [J] . Jourani A., Bouvier S. Tribology Transactions . 2015,第1期

机译：316L不锈钢在干式滑动接触中的摩擦磨损机理：磨料粒度的影响
2. Introduction of a power law formulation to quantify the contact size effects on friction and wear responses of dry oscillating sliding contacts: Application to a chromium steel interface [J] . S. Fouvry, R. Merhej Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear . 2013,第1a2期

机译：引入幂律公式以量化接触尺寸对干式振荡滑动接触的摩擦和磨损响应的影响：在铬钢界面上的应用
3. Microstructure and dry sliding wear resistance evaluation of plasma nitrided austenitic stainless steel type AISI 316LN against different sliders [J] . Devaraju A., Elayaperumal A., Alphonsa J., Surface & Coatings Technology . 2012,第Null期

机译：等离子渗氮奥氏体不锈钢AISI 316LN对不同滑块的显微组织和干滑耐磨性评估
4. Wear mechanisms in dry sliding friction tests of copper versus steel [C] . S.Enders World Tribology Congress III vol.1; 20050912-16; Washington,DC(US) . 2005

机译：铜与钢的干式滑动摩擦试验中的磨损机理
5. SURFACE CONTACT WEAR AND ABRASIVE WEAR IN LUBRICATED SLIDING MECHANISMS [D] . INOUE, RIICHI 1982

机译：润滑滑动机制中的表面接触磨损和磨料磨损
6. Dry Sliding Friction of Tool Steels and Their Comparison of Wear in Contact with ZrO2 and X46Cr13 [O] . Michal Krbata, Maros Eckert, Lenka Bartosova, 2020

机译：工具钢的干滑动摩擦及其与ZrO2和X46Cr13接触时的磨损比较
7. The role of microstructure on wear mechanisms and anisotropy of additively manufactured 316L stainless steel in dry sliding [O] . Mohanad Bahshwan, Connor W. Myant, Tom Reddyhoff, 2020

机译：微观结构对干式滑动中涂布316L不锈钢的磨损机理和各向异性的作用

Friction and Wear Mechanisms of 316L Stainless Steel in Dry Sliding Contact: Effect of Abrasive Particle Size

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