[3] [3] LEE J D, RA H Y, HONG K T, et al. Analysis of deposition phenomena and residual stress in plasma spray coatings[J]. Surface and Coatings Technology, 1992, 56(1): 27-37.

[4] [4] GHOSH S, CHOI J. Three-dimensional transient finite element analysis for residual stresses in the laser aided direct metal/material deposition process[J]. Journal of Laser Applications, 2005, 17(3): 144-158.

[5] [5] THOMAS A, GABE G, ALAA E, et al. Laser pre-sintering for Denudation Reduction in the Laser Powder Bed Fusion Additive Manufacturing of Ti-6Al-4V Alloy[J]. Additive Manufacturing, 2021, 7(6):1395-1422.

[7] [7] MONDAL S, BANDYOPADHYAY A, PAL P K. Application of artificial neural network for the prediction of laser cladding process characteristics at Taguchi-based optimized condition[J]. The International Journal of Advanced Manufacturing Technology, 2014, 70(9): 2151-2158.

[10] [10] LEUNG C L A, TOSI R, MUZANGAZA E, et al. Effect of preheating on the thermal, microstructural and mechanical properties of selective electron beam melted Ti-6Al-4V components[J]. Materials & Design, 2019, 174: 107792.

[11] [11] SHI W T, LI J H, JING Y L, et al. Combination of scanning strategies and optimization experiments for laser beam powder bed fusion of Ti-6Al-4V titanium alloys[J]. Applied Sciences, 2022, 12(13): 6653.

[16] [16] HANZL P, ZETEK M, BAKA T, et al. The influence of processing parameters on the mechanical properties of SLM parts[J]. Procedia Engineering, 2015, 100(C):1405-1413.

[17] [17] CAO L. Mesoscopic-scale numerical investigation including the influence of scanning strategy on selective laser melting process[J]. Computational Materials Science, 2021, 189: 110263.

[18] [18] LIU Y D, ZHOU Y S, SHI W T, et al. Experimental research on variable parameter forming process for forming specimen of TC4 titanium alloy by selective laser melting[J]. Materials, 2022, 15(18): 6408.

[22] [22] ALI H, GHADBEIGI H, MUMTAZ K. Effect of scanning strategies on residual stress and mechanical properties of Selective Laser Melted Ti6Al4V[J]. Materials Science and Engineering: A, 2018, 712: 175-187.

[23] [23] PARRY L, ASHCROFT I A, WILDMAN R D. Understanding the effect of laser scan strategy on residual stress in selective laser melting through thermo-mechanical simulation[J]. Additive Manufacturing, 2016, 12: 1-15.

[25] [25] ZOU S, XIAO H, YE F, et al. Numerical analysis of the effect of the scan strategy on the residual stress in the multi-laser selective laser melting[J]. Results in Physics, 2020, 16:103005.

[26] [26] YU W H, SING S L, CHUA C K, et al. Influence of re-melting on surface roughness and porosity of AlSi10Mg parts fabricated by selective laser melting[J]. Journal of Alloys and Compounds, 2019, 792:574-581.

[27] [27] YUN J O, YANG Y S. Analysis of Temperature distribution and residual stress in deposition process of metal droplet by using laser beam[J]. Journal of the Korean Society for Precision Engineering, 2005, 22(3):187-193.

[28] [28] AHMADI A, MIRZAEIFAR R, MOGHADDAM N S, et al. Effect of manufacturing parameters on mechanical properties of 316L stainless steel parts fabricated by selective laser melting: A computational framework[J]. Materials & Design, 2016, 112: 328-338.

[29] [29] ZHENG X G, LI J X, YANG Q Y, et al. Prediction method of mechanical state of high-voltage circuit breakers based on LSTM-SVM[J]. Electric Power Systems Research, 2023, 218: 109224.

[30] [30] HASHIM F A, HUSSIEN A G. Snake Optimizer: A novel meta-heuristic optimization algorithm[J]. Knowledge-Based Systems, 2022, 242: 108320.