多零件选区激光熔化成型效率的优化

刘杰; 杨永强; 苏旭彬; 肖冬明

doi:doi:10.3788/ope.20122004.0699

光学精密工程, 2012, 20 (4): 699, 网络出版: 2012-05-11

多零件选区激光熔化成型效率的优化

Efficiency optimization of selective laser melting for multi-parts

论文大纲

刘杰 ^*杨永强苏旭彬肖冬明

作者单位

华南理工大学机械工程学院，广东广州 510640

激光技术选区激光熔化多零件成型效率 2.5维排料 laser technology Selective Laser Melting(SLM) multi-parts processing efficiency 2.5D nesting

摘要

对多零件选区激光熔化的成型效率进行了优化。首先，分析了多零件选区激光熔化成型过程的时间消耗，并以减少时间消耗为目标建立了3维零件在3维成型空间中的2.5维排料优化规则。然后，研究了2.5维自动排料，提出利用3维零件模型在2维平面区域的投影将2.5维排料转化为2维排料的简化方法和一种利用切片数据进行投影生成的算法。最后，为验证所述方法的有效性，以手术模板模型为例，在虚拟选区激光熔化系统VDemetal280上进行了优化实验。与优化前相比，优化后的成型次数从4次降为3次，在扫描速度为600 mm/s、切片层厚为0.035 mm、扫描间距为0.08 mm的工艺参数下，总铺粉次数从3 892次降为2 231次，预计加工时间从约91 276 s降为69 918 s，时间消耗有明显减少。

Abstract

An optimized method was proposed to improve the processing efficiency of Selective Laser Melting (SLM) for multi-parts. First, the time consuming of the SLM process was analyzed and the 2.5D nesting rules for the optimization were established to reduce the time consuming. Then, the 2.5D automatic nesting was studied. A simplified method which uses the 3D projection to convert the 2.5D nesting to the 2D nesting and an algorithm for generating the projection from slice data were presented. Finally,by taking a operation model for an example, an experiment was performed on the virtual SLM system developed with OpenGL and VC++ to simulate the motion of real system and to validate the feasibility of the method. The result shows that the processing times are reduced from 4 to 3, the recoating times are from 3 892 to 2 231 and the expected processing time has been from 91 276 s to 69 918 s at a scanning speed of 600 mm/s, slicing thickness of 0.035 mm and track space of 0.08 mm.The time consuming has been significantly reduced as compared with that before optimization.

参考文献

[1] OVER C, MEINERS W, WISSENBACK K, et al.. Selective laser melting: a new approach for the direct manufacturing of metal parts and tools ［R］. 1st International Conference on Laser Assisted Net Shape Engineering, Germany: Frankfurt, 2001.

[2] ABE F, OSAKADA K, SHIOMI M, et al.. The manufacturing of hard tools from metallic powders by selective laser melting ［J］. Materials Processing Technology, 2001,111(1/3):210-213.

[3] YADROITSEV I, BERTRAND P H, SMUROV I. Parametric analysis of the selective laser melting process ［J］. Appl. Surf. Sci., 2007，253(19):8064-8069.

[4] WU W H, YANG Y Q, HUANG Y L. Direct manufacturing of Cu-based alloy parts by selective laser melting ［J］. Chin. Opt. Lett., 2007,5(1):37-40.

[5] 王迪，杨永强，吴伟辉. 光纤激光选区激光熔化316L不锈钢工艺优化［J］.中国激光，2009，36(12):3233-3239.

WANG D, YANG Y Q, WU W H. Process optimization for 316L stainless steel by fiber laser selective melting［J］. Chinese J. Lasers, 2009, 36(12):3233-3239.(in Chinese)

[6] 苏旭彬，杨永强，王迪，等. 免装配机构的选区激光熔化直接成型工艺研究［J］.中国激光，2011，38(6):0603021.

SU X B, YANG Y Q, WANG D, et al.. Study on process of non-assembly mechanisms directly fabricated by selective laser melting［J］. Chinese J. Lasers, 2011,38(6):0603021.(in Chinese)

[7] 吴伟辉，杨永强，何兴容，等. 金属质个性化手术模板的全数字化快速设计及制造［J］.光学精密工程，2010，18(5):1135-1143.

WU W H, YANG Y Q, HE X R, et al.. All-digital rapid design and manufacture of metal customized surgical guide plate［J］. Opt. Precision Eng., 2010,18(5):1135-1143.(in Chinese)

[8] 何兴容，杨永强，吴伟辉，等. 粉碎性骨折个体化手术模板的选区激光熔化直接成型研究［J］.生物医学工程学杂志，2010，27(3):519-523.

HE X R, YANG Y Q, WU W H, et al.. Research on direct forming of comminuted fracture surgery orienting model by selective laser melting［J］. Journal of Biomedical Engineering, 2010,27(3):519-523.(in Chinese)

[9] 刘杰，杨永强，宋长辉. 基于SLM从图像直接制造金属浮雕的方法［J］.华南理工大学学报(自然科学版)，2011，39(6): 13-17.

LIU J, YANG Y Q, SONG CH H. SLM-based direct manufacturing of metal bas-relief from images［J］. Journal of South China University of Technology (Natural Science Edition), 2011, 39(6):13-17.(in Chinese)

[10] 张英杰. 二维计算机排料与数控自动编程［D］.北京：华北电力大学，2004.

ZHANG Y J. Two-dimensional packing and auto-programming for NC ［D］.Beijing：North China Electric Power University, 2004.(in Chinese)

[11] BADU R A, BADU N R. A generic approach for nesting of 2-D parts in 2-D sheets using genetic and heuristic algorithms ［J］. Computer-aided Design, 2001,33:879-891.

[12] HECKMANN R, LENGAUER T. A simulated annealing approach to the nesting problem in the textile manufacturing industry ［J］. Annals of Operations Research, 1995, 57:103-133.

[13] EGEBLAD J, NIELSEN B K, ODGAARD A. Fast neighborhood search for two- and three-dimensional nesting problems ［J］. European Journal of Operational Research, 2007,183:1249-1266.

刘杰, 杨永强, 苏旭彬, 肖冬明. 多零件选区激光熔化成型效率的优化[J]. 光学精密工程, 2012, 20(4): 699. LIU Jie, YANG Yong-qiang, SU Xu-bin, XIAO Dong-ming. Efficiency optimization of selective laser melting for multi-parts[J]. Optics and Precision Engineering, 2012, 20(4): 699.

多零件选区激光熔化成型效率的优化

关于本站 Cookie 的使用提示

全站搜索

多零件选区激光熔化成型效率的优化

相关论文

相关资讯

关于本站 Cookie 的使用提示

全站搜索