1 通讯论文
1.1 与媳妇合作
[1] MA J, LI L, LI J. Fuzzy average edge connectivity with its application to communication networks[J]. Soft Computing, 2022 : 1-12.
2 一作论文
2.1 在博士期间的研究成果
[1] LI L, TANG J, DING H, et al. On the linear transform technique for generating rough surfaces[J]. Tribology International, 2021, 163 : 107182.
[2] LI L, TANG J, WEN Y, et al. Numerical simulation of ultrasonic-assisted grinding surfaces with fast fourier transform[J]. Journal of Tribology, 2020, 142(9) : 092301.
[3] LI L, TANG J, WEN Y, et al. Characterization of ultrasonic-assisted grinding surface via the evaluation of the autocorrelation function[J]. The International Journal of Advanced Manufacturing Technology, 2019, 104 : 4219-4230.
3 其它
3.1 与导师团队合作(中南大学)
[1] TANG J, CHEN J, YANG D, et al. A new method of layered superposition reconstruction modeling on grinding-shot peening surfaces[J]. Surface Topography : Metrology and Properties, 2022, 10(4) : 045010.
[2] WEN Y, TANG J, ZHOU W, et al. New analytical model of elastic-plastic contact for three dimensional rough surfaces considering interaction of asperities[J]. Friction, 2022 : 1-15.
[3] XIA F, TANG J, LI L, et al. An improved fft method for shot peening surface reconstruction[J]. Surface Topography : Metrology and Properties, 2022, 10(2) : 025028.
[4] WEN Y, TANG J, ZHOU W, et al. A reconstruction and contact analysis method of three dimensional rough surface based on ellipsoidal asperity[J]. Journal of Tribology, 2020, 142 (4) : 041502.
[5] LI G W, TANG J Y, ZHOU W, et al. Fatigue life prediction of workpiece with 3d rough surface topography based on surface reconstruction technology[J]. Journal of Central south university, 2018, 25(9) : 2069-2075.