作者简介: 张海鸥,东京大学工学博士,华中科技大学数字制造装备与技术国家重点实验室教授、博士生导师,主要从事新材料加工与模具制造技术、数字制造技术与装备、高能束和机器人制造CAD/CAM/CAE等方面的研究,承担和完成国家自然科学基金、国家863、国防重点预研等项目20余项,在Journal of Applied Physics、Journal of Power Source、Thin Solid Films、Surface and Coating Technology、中国科学等国内外权威及核心重要杂志上发表论文约200篇。
[1] 张海鸥,王超,胡帮友,等. 金属零件直接快速制造技术及发展趋势. 航空制造技术,2010(8):43-46.
[2] 张海鸥, 蒋疆, 王桂兰. 金属零件直接快速制造技术. 航空制造技术,2008(7):42-45.
[3] 朱秩峰,董春林. 激光电弧复合焊接技术. 航空制造技术,2002(11):32-34.
[4] 张海鸥,熊新红,王桂兰,等.等离子熔积成形与铣削光整复合直接制造金属零件技术. 中国机械工程,16(20):1863-1866.
[5] 张海鸥,王桂兰.零件与模具的熔积成形复合制造方法及其辅助装置:中国,201010147632.2[P]. 2010-04-15.
[6] Zhang H O, Wang X P, Wang G L, et al. Hybrid direct manufacturing method of metallic parts using deposition and micro continuous rolling. Rapid Prototyping Journal, 2013, 19(6): 387-394.
[7] Steen W M. Arc augmented laser processing of materials. Journal of Application Physics, 1980, 51(11): 5636-5641.
[8] 张海鸥,钱应平,王桂兰,等. 等离子体激光复合直接成形的弧柱形态与成形特性. 中国科学 E 辑:技术科学 2006,36(5):497-506.
[9] Song Y A, Park S, Choi D, et al. 3D welding and milling: Part I—a direct approach for freeform fabrication of metallic prototypes. International Journal of Machine Tools & Manufacture, 2005,45(9): 1057-1062.
[10] Xiong X H, Zhang H O, Wang G L, et al. Hybrid plasma deposition and milling for an aeroengine double helix integral impeller made of superalloy. Robotics & Computer-Integrated Manufacturing, 2010, 26(4): 291-295.
[11] Xiong X, Zhang H, Wang G L. Metal direct prototyping by using hybrid plasma deposition and milling. Journal of Materials Processing Technology, 2009, 209(1):124-130.
[12] Karunakaran K P, Pushpa V, Akula S B, et al. Techno-economic analysis of hybrid layered manufacturing. International Journal of Intelligent Systems Technologies and Applications, 2008,4(1-2): 161-176.
[13] Karunakaran K P, Suryakumar S, Pushpa V, et al. Retrofitment of a CNC machine for hybrid layered manufacturing. Int J Adv Manuf Technol,2009(45): 690-703.
[14] Paul A. Colegrove, Harry E. Coules, et al. Microstructure and residual stress improvement in wire and arc additively manufactured parts through high-pressure rolling. Journal of Materials Processing Technology, 2013, 213(10): 1782-1791.