| 航空轴承表面合成DLC薄膜的结构特征和滚动-接触疲劳物理模型 |
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| 引用本文: | 刘洪喜,苏海青,蒋业华,孟春蕾,林波.航空轴承表面合成DLC薄膜的结构特征和滚动-接触疲劳物理模型[J].航空学报,2009,30(9):1769-1775. |
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| 作者姓名: | 刘洪喜 苏海青 蒋业华 孟春蕾 林波 |
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| 作者单位: | 1. 昆明理工大学,材料科学与工程学院,云南,昆明,650093
2. 承德石油高等专科学校,工程技术训练巾心,河北,承德,067000 |
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| 基金项目: | 国家自然科学基金(50665004);;教育部博士点基金(20060674002) |
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| 摘 要: | 利用等离子体浸没离子注入与沉积(PIIID)复合强化技术,在AISI440C航空轴承钢表面合成了类金刚石碳(DLC)薄膜。Raman光谱分析揭示出所制备的DLC膜层主要是由金刚石键(sp3)和石墨键(sp2)组成的混合无定形碳膜,且sp3键含量大于10%。原子力显微镜(AFM)形貌表明,DLC膜层表面光滑,结构致密均匀,与基体结合良好。被处理薄膜试样在90%置信区间下的疲劳寿命L10,L50,特征疲劳寿命La和平均寿命较基体分别延长了10.1,4.2,3.5和3.6倍。ANSYS模拟结果显示,最大剪切应力出现在膜基结合处并且靠近膜层内部,最大值达到2 150 MPa。结合ANSYS模拟结果和扫描电镜(SEM)观察形貌分析发现,膜层内部存在的微观缺陷是滚动接触疲劳裂纹产生的诱因,循环载荷所形成的最大剪切应力和润滑油中污染颗粒的共同作用是疲劳磨坑最终形成的外在动力。建立了循环载荷条件下PIIID DLC/AISI440C轴承接触疲劳破坏的5阶段物理模型。
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| 关 键 词: | 等离子体浸没离子注入与沉积 类金刚石碳薄膜 滚动接触疲劳 物理模型 轴承 |
Characteristics and Rolling Contact Fatigue Model of Diamond-like Carbon Films on Aerospace Bearing Surfaces |
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| Liu Hongxi,Su Haiqing,Jiang Yehua,Meng Chunlei,Lin Bo.Characteristics and Rolling Contact Fatigue Model of Diamond-like Carbon Films on Aerospace Bearing Surfaces[J].Acta Aeronautica et Astronautica Sinica,2009,30(9):1769-1775. |
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| Authors: | Liu Hongxi Su Haiqing Jiang Yehua Meng Chunlei Lin Bo |
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| Institution: | 1. Faculty of Materials Science and Engineering;Kunming University of Science and Technology;Kunming 650093;China;2. Training Center of Engineering Technology;Chengde Petroleum College;Chengde 067000;China |
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| Abstract: | Diamond-like carbon(DLC)films are synthesized by the plasma immersion ion implantation and de-position(PIIID)technique on the steel substrate surface of aerospace bearing AISI440C.Raman spectroscopy analysis indicates that the DLC consists of a mixture of amorphous and crystalline phases,with a variable ratio of sp2/sp3 carbon bonds in which the sp3 bonds content is more than 10%.Atomic force microscope(AFM)reveals that the DLC film has extremely smooth surface,very high uniformity,and efficiency of space f... |
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| Keywords: | plasma immersion ion implantation and deposition (PIIID diamond-like carbon films rolling contact fatigue physical model bearings |
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