[1] Shang Xiaojuan, Bo Shenghong, Guo Yaxiong*, Liu Qibin*. Applied Surface Science, 2021, 564:150466.
[2] Wang Fangping, Wu Jiawang, Guo Yaxiong*, Shang Xiaojuan, Zhang Jing, Liu Qibin. Journal of Alloy and Compounds, 2023, 937: 168266.
[3] Wu Jiawang, Wang Fangping, Guo Yaxiong*, Shang Xiaojuan, Zhang Jing, Liu Qibin. Journal of Materials Research and Technology, 2023, 23: 1105-1119.
[4] Wu Jiawang, Guo Yaxiong*, Wang Fangping, Shang Xiaojuan, Zhang Jing, Liu Qibin. Virtual and Physical Prototyping, 2023, 18: e2250771. [5] Wu Jiawang, Guo Yaxiong*, Wang Fangping, Shang Xiaojuan, Zhang Jing, Liu Qibin. Materials and design, 2023, 235: 112464.
[6] Guo, Yaxiong, Li, Xingmao, Liu, Qibin. A novel biomedical high-entropy alloy and its laser-clad coating designed by a cluster-plus-glue-atom model, Materials and Design, 2020, 196: 109085.
[7] Guo Yaxiong, Wang Huilin, Liu Qibin. Microstructure evolution and strengthening mechanism of laser-cladding MoFexCrTiWAlNby refractory high-entropy alloy coatings, Journal of Alloys and compounds, 2020, 834: 155147.
[8] Guo Yaxiong, Liu Qibin . MoFeCrTiWAlNb refractory high-entropy alloy coating fabricated by rectangular-spot laser cladding[J]. Intermetallics, 2018, 102:78-87.
[9] Guo Ya-Xiong, Liu Qi-Bin, Shang Xiao-Juan. In situ TiN-reinforced CoCr2FeNiTi0.5 high-entropy alloy composite coating fabricated by laser cladding[J]. Rare Metals, 2020, 39(10): 1190-1195.
[10] Guo Yaxiong, Shang Xiaojuan, Liu Qibin. Microstructure and properties of in-situ TiN reinforced laser cladding CoCr2FeNiTix high-entropy alloy composite coatings[J]. Surface and Coatings Technology, 2018, 344: 353-358.