• 李杰
  • 发布时间:2018-03-02   阅读:236
  • 姓 名:李杰

    性 别:

    研究方向:

        核电材料微动磨损行为及损伤机制

    硬质薄膜的制备

    邮 箱:ljwear@jnu.edu.cn

    职称及职务:

    讲师

    发表论文:

    [1]Li J and Lu Y H. Effects of displacement amplitude on fretting wear behaviors and mechanism of Inconel 600 alloy[J]. Wear, 2013, 304 (1-2): 223-230.

    [2]Li J, Lu Y, Zhang H, et al. Effect of grain size and hardness on fretting wear behavior of I- 600 alloys[J]. Tribology International, 2015, 81:215-222.

    [3]Li J, Ma M, Lu Y H, et al. Evolution of wear damage in I- 600 alloy due to fretting against type 304 stainless steel[J]. Wear, 2016, 346-347:15-21.

    [4]Li J, Lu Y HXin Let al. The effects of electrochemical polarization condition and applied potential on tribocorrosion behaviors of Inconel 690 alloys in water environment[J]. Materials & Design. 2017, 119: 93-103.

    [5]Li J, Lu Y HYang B Bet al. The effect of normal force on fretting corrosion behavior of Inconel 690 in 3.5% sodium chloride. Material Characterization, 2017, 131: 224-233.

    [6]Li J, Lu Y HYang B Bet al. The degradation mechanism of Inconel 690TT induced by fretting wear in air. Tribology International,2017, 116, 147-154.

    [7]Li J, Lu Y HYang B Bet al. The subsurface damage mechanism of Inconel 690 during fretting wear in pure water. Tribology International, 2018,117, 152-161.