激光直接金属沉积工艺能效的田口试验研究
[1] HERRING H. Energy efficiency—a critical view [J]. Energy, 2006, 31(1): 10-20.
[2] APOSTOLOS F, ALEXIOS P, GEORGIOS P, et al. Energy efficiency of manufacturing processes: a critical review [J]. Procedia Cirp, 2013, 7(5): 628-633.
[5] DAHMEN M, GüDüKKURT O, KAIERLE S. The ecological footprint of laser beam welding [J]. Physics Procedia, 2010, 5: 19-28.
[6] FYSIKOPOULOS A, PASTRAS G, ALEXOPOULOS T, et al. On a generalized approach to manufacturing energy efficiency [J]. The International Journal of Advanced Manufacturing Technology, 2014, 73(9/12): 1437-1452.
[7] XUE H, KUMAR V, SUTHERLAND J W. Material flows and environmental impacts of manufacturing systems via aggregated input-output models [J]. Journal of Cleaner Production, 2007, 15(13/14): 1349-1358.
[8] BRANHAM M, GUTOWSKI T G, JONES A, et al. A thermodynamic framework for analyzing and improving manufacturing processes [C]//International Symposium on Electronics and the Environment.New York,USA: IEEE,2008: 1-6.
[9] CHOI A C K, KAEBERNICK H, LAI W H. Manufacturing processes modelling for environmental impact assessment [J]. Journal of Materials Processing Technology, 1997, 70(1/3): 231-238.
[10] BHUSHAN R K. Optimization of cutting parameters for minimizing power consumption and maximizing tool life during machining of Al alloy SiC particle composites [J]. Journal of Cleaner Production, 2013, 39(1): 242-254.
[11] DRAGANESCU F, GHEORGHE M, DOICIN C V. Models of machine tool efficiency and specific consumed energy [J]. Journal of Materials Processing Technology, 2003, 141(1): 9-15.
[12] YAN J H, FENG C H, LI L. Sustainability assessment of machining process based on extension theory and entropy weight approach [J]. The International Journal of Advanced Manufacturing Technology, 2014, 71(5/8): 1419-1431.
[13] FRANCO A, ROMOLI L. Characterization of laser energy consumption in sintering of polymer based powders [J]. Journal of Materials Processing Technology, 2012, 212(4): 917-926.
[14] PASTRAS G, FYSIKOPOULOS A, STAVROPOULOS P, et al. An approach to modelling evaporation pulsed laser drilling and its energy efficiency [J]. The International Journal of Advanced Manufacturing Technology, 2014, 72(9/12): 1227-1241.
[15] LI W, KARA S. An empirical model for predicting energy consumption of manufacturing processes: a case of turning process [J]. Proceedings of the Institution of Mechanical Engineers,2011, B225(9): 1636-1646.
[16] MORI M, FUJISHIMA M, INAMASU Y, et al. A study on energy efficiency improvement for machine tools[J]. CIRP Annals—Manufacturing Technology, 2011, 60(1): 145-148.
[17] LI L, YAN J, XING Z. Energy requirements evaluation of milling machines based on thermal equilibrium and empirical modelling [J]. Journal of Cleaner Production, 2013, 52(4): 113-121.
[18] GUO Y, DUFLOU J R, LAUWERS B. Energy-based optimization of the material stock allowance for turning-grinding process sequence [J]. The International Journal of Advanced Manufacturing Technology, 2014, 75(1): 503-513.
[19] HUANG Zh T, YANG J, ZhANG Ch Y, et al. Energy-oriented CNC milling process modelling and parameter optimization [J]. Chinese Journal of Mechanical Engineering, 2016, 27(18): 2524-2532(in Chinese).
[21] ZHANG D Q, LIU X D, ZHANG W B, et al. Study on effect of scanning path on quality of single laser cladding layer [J]. Hot Working Technology, 2016, 45(20): 149-152(in Chinese).
袁丰波, 韦海英, 黄矗, 吴家柱, 张屹. 激光直接金属沉积工艺能效的田口试验研究[J]. 激光技术, 2018, 42(1): 24. YUAN Fengbo, WEI Haiying, HUANG Chu, WU Jiazhu, ZHANG Yi. Taguchi experimental investigation on process energy efficiency of laser direct metal deposition[J]. Laser Technology, 2018, 42(1): 24.