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基于分形扫描的选择性激光烧结过程动态几何仿真 被引量:3

Dynamic geometric simulation of SLS process based on fractal scanning path
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摘要 介绍在W indows上开发一种动态几何仿真试验平台,实现选择性激光烧结分形路径扫描过程动态几何仿真。以V isual C++为开发工具,利用求交算法对扫描轮廓进行分形裁剪,采用OpenGL技术实现系统的模型构造和扫描过程仿真。该平台可用于探索和验证SLS加工中扫描路径的规划问题。 Presented a way to exploit a simulation platform for SIS process simulation based on fractal scanning path. This platform was developed by Visual C++, and by means of the intersecting algorithm arbitrary profile can be filed with fraetal curve. The model construction and simulation of scanning process was realized by OpenGL. By this platform the programming of scanning path in SIS process wil be explored and verified.
出处 《现代制造工程》 CSCD 2007年第1期57-59,33,共4页 Modern Manufacturing Engineering
关键词 分形 选择性激光烧结 动态几何仿真 Fractal Selective Laser Sintering(SIS) Dynamic geometric simulation
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  • 1邓琦林,张宏,唐亚新,余承业.固态粉末的选择性激光烧结[J].电加工,1995(2):32-35. 被引量:11
  • 2邓琦林,余承业.金属粉末的选择性激光烧结[J].航空工艺技术,1996(2):19-20. 被引量:9
  • 3孙家广,计算机图形学,1995年
  • 4齐东旭,分形及其计算机生成,1994年
  • 5Wiedemann B, Jantzen H A. Strategies and applications for rapid product and process development in DaimlerBenz A G. Computers in Industry, 1999,39:11
  • 6McAlea K,Nelson C,Hejmadi U. et al. Sand and investment cast parts via the selective laser sintering process.Rapid Prototyping/Laser Applications in the Automotive Industries ,Automotive Automation Limited, 1997:159
  • 7Rosochowski A,Matuszak A. Rapid tooling:the state of the art. J Mater Proces Tech, 2000,106:191
  • 8Pham D T,Gault R S. A comparison of rapid prototyping technologies. Inter J Machine Tools & Manufacture,1998,38:1257
  • 9Sears J W. Direct laser powder deposition-"State of Art".Powder Mater: Current Research and Industrial Practices ,1999, (11) :213
  • 10Simon Pickering. Rapid prototyping turns to PM for new solutions. Metal Powder Report, 1995,50(3): 30

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  • 1毛娅,陈作炳,余新明,饶嵩.基于医学图像的人工骨三维仿生设计[J].中国体视学与图像分析,2004,9(3):160-163. 被引量:6
  • 2Chua C K,Leong K F,Lim C S.Rapid prototyping:principles and applications[M].New Jersey:World Scientific,2003.
  • 3Wohlers T T.Wolders Report 2006[M].Wohlers Associates,Inc.2006.
  • 4Wang H,Kovacevic R.Rapid prototyping based on variable polarity gas tungsten are welding for a 5356 aluminum alloy[J].Proceedings of the Institution of Mechanical Engineers,2001,215(11):1519-1527.
  • 5Spencer J D,Dickens P M,Wykes C M.Rapid prototyping of metal parts by three-dimensional welding[J].Proceedings of the Institution of Mechanical Engineers,1998,212(3):175-182.
  • 6Zhang Y,Chen Y,Li P,et al.Automated system for welding-based rapid prototyping[J].Mechatronics,2002,12(1):37-53.
  • 7Song Y-A,Park S,Choi D,et al.3D welding and milling:Part Ⅰ--a direct approach for freeform fabrication of metallic prototypes[J].International Journal of Machine Tools and Mamffacture,2005,45 (9):1057-1062.
  • 8Christian J Nelson, Samuel Xue, Joel W Barlow, et al. Model of the Selective Laser Sintering of Bisphenol-A Polycarnonate[ J ]. Ind. Eng. Chem. Res, 1992 (32): 2305 - 2317.
  • 9Liang Ma,Hongzan Bin. Temperature and stress analysis and simulation in fractal scanning-based laser sintering[J] 2007,The International Journal of Advanced Manufacturing Technology(9-10):898~903
  • 10Jia Yang Ph. D. Candidate,Hong-Zan Bin,Xiao-Bo Zhang Ph. D.. Research on fractal-scanning path for arbitrary boundary layer in Layered Manufacturing[J] 2002,Journal of Shanghai University (English Edition)(4):337~341

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