Laser & Optoelectronics Progress, Volume. 59, Issue 5, 0531001(2022)
Effect of Energy Density on Structure and Properties of a Laser Cladding Molybdenum Layer
[7] Feng J S. The recent advance in applications of niobium[J]. Rare Metal Materials and Engineering, 23, 7-12(1994).
[8] Ren J S, Guo X P. Improvement of high-temperature oxidation resistance of niobium-based alloys by alloying and coating technology[J]. Rare Metals & Cemented Carbides, 34, 44-47(2006).
[11] Zhao M, Li Z X, Huang C L et al. Mo diffusion in glow plasma surface molybdenizing of niobium alloy[J]. Chinese Journal of Rare Metals, 34, 839-843(2010).
[13] Yang J X, Wang Z C, Wang X et al. Microstructure and properties of laser cladding MoSi2 composite coating[J]. Chinese Journal of Lasers, 40, 1203004(2013).
[14] Li M C, Zhang P L, Zhuang Q Q et al. Microstructure and micromechanical features of Ni-Mo-Si coatings on copper plate surfaces by laser cladding[J]. Chinese Journal of Lasers, 44, 1202004(2017).
[15] Wang F Z, Li D C, Sun Y J[M]. Molybdenum materials and processing, 312(2008).
[16] Zhu W Z, Dang M Z, Tian J et al. Effect of laser energy density on relative density, microstructure and mechanical properties of Cu-Al-Ni-Ti alloy fabricated by selective laser melting[J]. Journal of Mechanical Engineering, 56, 53-64(2020).
[17] Zhao S G, Li C L. Relationship between crack rate of CBN coating and parameters of laser cladding[J]. China Surface Engineering, 28, 119-126(2015).
[18] Xiong B K, Wen W G, Yang X M et al[M]. Metallurgy of zirconium and hafnium, 93(2002).
[19] Su S J, Cheng B W, Xue C L et al. Lattice constant deviation from Vegard’s law in GeSn alloys[J]. Acta Physica Sinica, 61, 384-388(2012).
[20] Zhang L, Chen X M, Liu W et al. Formation mechanism and sensitivity of cracks in laser-cladded Ni-based-alloy coatings[J]. Laser & Optoelectronics Progress, 56, 111401(2019).
[21] Wang W, Sun W L, Yu J T et al. Research status on crack control of laser cladding process coatings[J]. Hot Working Technology, 49, 1-5(2020).
[22] Li H Y, Wei L F, Wang Z M et al. Effect of preheating temperature on microstructure and stress of laser cladding layer[J]. Laser & Optoelectronics Progress, 58, 0714004(2021).
[23] Chen J F, Li X P, Xue Y P. Friction and wear properties of laser cladding Fe901 alloy coating on 45 steel surface[J]. Chinese Journal of Lasers, 46, 0502001(2019).
[25] Jin J B, Zhao Y, Zhao S Z et al. Effect of TiN content on microstructure and wear resistance of Ti-based composites produced by selective laser melting[J]. Chinese Journal of Lasers, 46, 1102013(2019).
[26] Sun N, Fang Y, Zhang J Q et al. Effect of WC-12Co addition on microstructure and wear resistance of Inconel 625 matrix composites prepared by laser cladding[J]. Chinese Journal of Lasers, 48, 0602106(2021).
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Shengyuan Lei, Zhimin Cai, Xincheng Jiang, Haili Huang, Yifei Dai, Weizhou Li. Effect of Energy Density on Structure and Properties of a Laser Cladding Molybdenum Layer[J]. Laser & Optoelectronics Progress, 2022, 59(5): 0531001
Category: Thin Films
Received: May. 18, 2021
Accepted: Jun. 11, 2021
Published Online: Mar. 8, 2022
The Author Email: Lei Shengyuan (403709679@qq.com), Li Weizhou (liwz2008@hotmail.com)