Chinese Journal of Lasers, Volume. 48, Issue 22, 2202015(2021)
Inside-Laser Powder Feeding Cladding Forming of Arc-Shaped Twisted Structural Parts
References(15)
[1] Zhu Y W, Xu J W, Zhao J S. Study on the shaping law and test of electrochemical contour evolution machining for integral turbine with big-twisted blades[J]. China Mechanical Engineering, 17, 1778-1783(2006).
[2] Zhou C J, Sun W L. Review on laser remanufacturing research based on laser cladding[J]. Mining & Processing Equipment, 43, 5-9(2015).
[3] Wei J H, Kuang Y. Ceramic shell technique for large complex thin wall investment structural castings[J]. Foundry Technology, 37, 488-491(2016).
[4] Gu D D, Zhang H M, Chen H Y et al. Laser additive manufacturing of high-performance metallic aerospace components[J]. Chinese Journal of Lasers, 47, 0500002(2020).
[5] Kolluru K, Axinte D. Coupled interaction of dynamic responses of tool and workpiece in thin wall milling[J]. Journal of Materials Processing Technology, 213, 1565-1574(2013).
[6] Dwivedi R, Zekovic S, Kovacevic R. A novel approach to fabricate uni-directional and branching slender structures using laser-based direct metal deposition[J]. International Journal of Machine Tools and Manufacture, 47, 1246-1256(2007).
[7] Wang X L. Study on laser material deposition process of 3D-flow blade feature structures[D](2019).
[8] Shi T, Wang Y Q, Lu B H et al. Laser cladding forming of cantilevered thin-walled part based on hollow-laser beam inside powder feeding technology[J]. Chinese Journal of Lasers, 42, 1003003(2015).
[9] Wang M Y, Shi S H, Shi T et al. Conformal discrete layering of multivariant twisted structure based on inside-laser powder feeding[J]. Chinese Journal of Lasers, 48, 1002114(2021).
[10] Wang C, Shi S H, Fang Q Q et al. Research on laser cladding forming of close-packed multivariant twisty thin-wall parts[J]. Chinese Journal of Lasers, 44, 0602004(2017).
[11] Yang S, Shi S H, Fu G Y et al. Impact of hollow ring laser defocused amount on melting channel bump defect self healing effect[J]. Chinese Journal of Lasers, 42, 79-85(2015).
[12] Xu X X, He W X, Qin J et al. Effects of vibration acceleration on stress deformation, microstructures and properties of Fe314 alloy fabricated by plasma additive manufacturing[J]. China Surface Engineering, 32, 127-135(2019).
[13] Gong Y Q, Fu G Y, Shi T et al. Local shielding gas model for laser cladding of titanium alloy in open environment[J]. Chinese Journal of Lasers, 47, 1102006(2020).
[14] Pang Y F, Fu G Y, Wang M Y et al. Parameter optimization of high deposition rate laser cladding based on the response surface method and genetic neural network model[J]. Chinese Journal of Lasers, 48, 0602112(2021).
[15] Zhou X X, Xin B, Gong Y D et al. Effect of scanning direction on microstructure and mechanical properties of part formed via variable thickness layer cladding deposition[J]. Chinese Journal of Lasers, 46, 0802003(2019).
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Yu Wang, Tuo Shi, Shihong Shi, Jie Wu, Qiang Yang, Mingyu Wang, Jianbin Li. Inside-Laser Powder Feeding Cladding Forming of Arc-Shaped Twisted Structural Parts[J]. Chinese Journal of Lasers, 2021, 48(22): 2202015
Paper Information
Category: laser manufacturing
Received: Apr. 27, 2021
Accepted: Jun. 30, 2021
Published Online: Nov. 5, 2021
The Author Email: Shi Tuo (shituo@suda.edu.cn), Shi Shihong (shishihong@suda.edu.cn)
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