在不同应力水平下考察等离子喷涂镍基合金涂层的滚动接触疲劳寿命和失效模式。以R‐31.1.软件为平台,采用统计分析方法(方差分析、回归分析、判别分析等)对其进行分析和讨论。结果表明:涂层的滚动接触疲劳寿命呈正态分布;随着接触应力的增加,涂层的均值寿命和方差都减小,并且疲劳寿命的分布更加集中;方差分析表明,接触应力对涂层的滚动接触疲劳寿命有显著性影响,且寿命均值与接触应力具有高度的线性相关性;建立了涂层失效模式的判别准则,当指定接触应力和疲劳寿命时可以预测涂层的失效模式,且预测正确率在65%以上;疲劳寿命对失效模式的累积贡献率明显高于接触应力对失效模式的累积贡献率,因此疲劳寿命是决定涂层失效模式的主要因素。
The rolling contact fatigue(RCF) life and failure modes of coatings ,prepared by plasma sprayed Ni‐based alloy ,were investigated under different stress levels ,and were analyzed and dis‐cussed by statistical analysis methods (including variance analysis ,regression analysis and discrimina‐tion analysis) with R‐3 1.1. software as a platform .The results show that the RCF life of the coatings exhibits normal distribution form .In addition ,the mean and variance of the coatings’ life decreases as the contact stress increases ,and the distribution of the fatigue life becomes more concentrated .Fur‐thermore ,variance analysis indicates that the contact stress has a significant influence on the RCF life of the coatings .And the mean life of the coatings is linear associated with the contact stress .The dis‐crimination criterion for the failure modes of the coatings is also established .The failure modes of the coatings can be predicted if the contact stress and the fatigue life are designated .And the prediction accuracy of the failure mode is above 65% .Furthermore ,the contribution proportion of the fatigue life for the failure mode is obviously higher than that of the contact stress ,thus the fatigue life is the main factor determining the failure mode of the coating .
参考文献
| [1] | L. Reis;B. Li;M. de Freitas.A multiaxial fatigue approach to Rolling Contact Fatigue in railways[J].International Journal of Fatigue,2014:191-202. |
| [2] | XU J S;ZHANG X C;XUAN F Z et al.Rolling contact fatigue behavior of laser cladded WC/Ni composite coating[J].Surface &Coatings Technology,2014,239:7-15. |
| [3] | Dongfang Zeng;Liantao Lu;Zhengyang Li;Jiwang Zhang;Xuesong Jin;Minhao Zhu .Influence of laser dispersed treatment on rolling contact wear and fatigue behavior of railway wheel steel[J].Materials & design,2014(Feb.):137-143. |
| [4] | KOMATA H;YAMABE J;MATSUNAGA H et al.Effect of size and depth of small defect on the rolling contact fatigue strength of bearing steel JIS-SUJ2[J].Transactions of the Japan Society of M echanical Engineer Series A,2013,79(803):961-975. |
| [5] | Kazuya Hashimoto;Takeshi Fujimatsu;Norimasa Tsunekage;Kazuhiko Hiraoka;Katsuyuki Kida;Edson Costa Santos .Study of rolling contact fatigue of bearing steels in relation to various oxide inclusions[J].Materials & design,2011(3):1605-1611. |
| [6] | L. Wang;J.C. Fang;Z.Y. Zhao;H.P. Zeng .Application of backward propagation network for forecasting hardness and porosity of coatings by plasma spraying[J].Surface & Coatings Technology,2007(9/11):5085-5089. |
| [7] | X. C. Zhang;B. S. Xu;F. Z. Xuan;S. T. Tu;H. D. Wang;Y. X. Wu .Rolling contact fatigue behavior of plasma-sprayed CrC-NiCr cermet coatings[J].Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear,2008(11/12):1875-1883. |
| [8] | Helong Yu;Wei Zhang;Hongmei Wang;Yongming Guo;Min Wei;Zhanyong Song;Yong Wang.Bonding and sliding wear behaviors of the plasma sprayed NiCrBSi coatings[J].Tribology International,2013:105-113. |
| [9] | Yulong An;Guoliang Hou;Jie Chen;Xiaoqin Zhao;Guang Liu;Huidi Zhou;Jianmin Chen.Microstructure and tribological properties of iron-based metallic glass coatings prepared by atmospheric plasma spraying[J].Vacuum: Technology Applications & Ion Physics: The International Journal & Abstracting Service for Vacuum Science & Technology,2014:132-140. |
| [10] | Piao Zhong-yu;Xu Bin-shi;Wang Hai-dou;Wen Dong-hui .Influence of surface nitriding treatment on rolling contact behavior of Fe-based plasma sprayed coating[J].Applied Surface Science: A Journal Devoted to the Properties of Interfaces in Relation to the Synthesis and Behaviour of Materials,2013(Feb.1):420-425. |
| [11] | Serres, N.;Hlawka, F.;Costil, S.;Langlade, C.;Machi, F. .Microstructures and environmental assessment of metallic NiCrBSi coatings manufactured via hybrid plasma spray process[J].Surface & Coatings Technology,2010(4):1039-1046. |
| [12] | Niranatlumpong, P.;Koiprasert, H. .Phase transformation of NiCrBSi-WC and NiBSi-WC arc sprayed coatings[J].Surface & Coatings Technology,2011(2/3):440-445. |
| [13] | Liyanage, T.;Fisher, G.;Gerlich, A.P. .Influence of alloy chemistry on microstructure and properties in NiCrBSi overlay coatings deposited by plasma transferred arc welding (PTAW)[J].Surface & Coatings Technology,2010(3):759-765. |
| [14] | 王韶云,李国禄,王海斗,刘金海,徐滨士,朴钟宇.超音速等离子NiCr/Cr_3C_2涂层的接触疲劳寿命[J].材料热处理学报,2012(05):112-115. |
| [15] | 王韶云,李国禄,王海斗,刘金海,徐滨士,朴钟宇.微缺陷对热喷涂涂层接触疲劳性能的影响[J].材料工程,2012(02):72-76. |
| [16] | 朴钟宇,徐滨士,王海斗,濮春欢.等离子喷涂铁基涂层的接触疲劳失效机理研究[J].材料工程,2009(11):69-73. |
| [17] | 薛毅;陈立萍.统计建模与 R 软件[M].北京:清华大学出版社,2007 |
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