Paper Publications
-
[21] Guoxin Lu. Surface topography evolution of Ni-based single crystal superalloy under laser shock: Surface rel.... Applied Physics A-Materials Science & Processing, 2017.
-
[22] Guoxin Lu. Differences in microscale surface contours of metallic targets subjected to laser shock. Optics communications,
-
[23] Guoxin Lu. Effect of initial surface roughness on the actual intensity of laser shock processing. SURFACE TOPOGRAPHY-METROLOGY AND PROPERTIES,
-
[24] Guoxin Lu. Formation mechanism of residual stress field induced by surface strengthening process. Journal of Testing and Evaluation, 2019.
-
[25] Guoxin Lu. Crack appearance of a laser shock-treated single crystal nickel-base superalloy after isothermal .... Surface and Coatings Technology, 2018.
-
[26] Guoxin Lu. Nanosecond pulsed laser-generated stress effect inducing macro-micro-nano structures and surface .... APPLIED MATERIALS TODAY,
-
[27] Guoxin Lu. Nonuniformity of morphology and mechanical properties on the surface of single crystal superalloy.... JOURNAL OF ALLOYS AND COMPOUNDS, 2016.
-
[28] Guoxin Lu. Microscopic surface topography of a wrought superalloy processed by laser shock peening. VACUUM, 2016.
-
[29] Guoxin Lu. The local microscale reverse deformation of metallic material under laser shock. Advanced Engineering Materials, 2016.
-
[30] Guoxin Lu. Differences in the micromechanical properties of dendrites and interdendritic regions. Philosophical Magazine Letters, 2016.
-
[31] Guoxin Lu. 激光冲击强化在高温合金材料应用上的研究进展. 《中国有色金属学报》, 2018.
-
[32] Guoxin Lu. Improving the fretting performance of aero-engine tenon joint materials using surface strengtheni.... Materials Science and Technology (United Kingdom), 2019.
-
[33] 二次孔挤压强化对Ti1023 钛合金孔疲劳性能影响. 航空材料学报, 36, 68-73,
-
[34] 激光冲击在材料成形领域的应用. 航空材料学报, 38, 1-10,
-
[35] 300M 钢喷丸强化残余应力场的数值模拟. 中国表面工程, 26, 72-76,
-
[36] 钢多弹丸喷丸强化的有限元模拟. 材料保护, 47, 28-30,
-
[37] 拉-拉疲劳载荷对孔壁强度的影响. 失效分析与预防, 9, 67-70,
-
[38] 300M 钢表面强化后应变硬化特性的表征. 金属热处理, 39, 129-131,
-
[39] 一种定性判断3D残余应力场测量值的新思路. 34, 283-286,
-
[40] 芯棒规格对孔挤压强化效果的影响. 制造业自动化, 36, 34-38,