Application of CATIA Parameterization in Papid Design and Manufacturing of Porous Materials
-
摘要: 提出了基于CATIA参数化设计多孔材料孔型的方法,介绍了如何应用CATIA建立多孔材料孔型库,其中包括多孔材料孔型参数化建模、多孔材料孔型库生成、多孔材料孔型库使用。介绍了运用多孔材料孔型库快速设计并制造多孔材料的工作流程,并且采用电子束快速成形制造方法制备出了不同孔型的多孔材料。Abstract: Based on the CATIA Parameterization, a design method for the structure of porous material is putforward. The present method to establish porous structure data-base was introduced, including the parametric modeling, building and employing of the porous structure data-base. At last,the process of the rapid design for aeronautic, astronautic and biomedical porous materials with porous structure data-base was presented and the porous metal materials with different unit style were fabricated with the selective electron beam melting.
-
Key words:
- application programming interfaces(API) /
- computer software /
- database systems /
- design
-
[1] 龚雪婷.金属多孔材料压缩行为探讨[J].高端装备制造,2013,(13):149-150 Gong X T. To investigate the behavior of metal porous materials compression[J]. China Science & Technology Overview, 2013,(13):149-150 (in Chinese) [2] 王广春.快速原型技术及其应用[M].北京:化学工业出版社,2006:2,105 Wang G C. Rapid prototyping technology and its application[M]. Beijing: Chemical Industry Press, 2006:2,105 (in Chinese) [3] 刘辉,杨冠军,于振涛,等.生物医用多孔钛合金材料的制备[J].钛工业进展,2010,27(1):9-15 Liu H, Yang G J, Yu Z T, et al. Preparation of porous titanium alloy materials for biomedical application[J]. Titanium Industry Progress, 2010,27(1):9-15 (in Chinese) [4] 傅蔡安.CATIA参数化设计在专用夹具快速设计中的应用[J].中国制造业信息化,2004,33(4):95-98 Fu C A. The application of CATIA parameterization in the rapid design of the special fixture [J]. Chinese Manufacturing Informatization, 2004,33(4):95-98 (in Chinese) [5] 李海滨,杨义虎,朱珊珊,等.以CATIA为平台的起落架零件参数化建模技术研究[J].现代制造工程,2009,(7):37-40 Li H B, Yang Y H, Zhu S S, et al. A parametric modeling of parts of undercarriage parts using API in CATIA[J]. Modern Manufacturing Engineering, 2009,(7):37-40 (in Chinese) [6] 尤春风.CATIA V5机械设计[M].北京:清华大学出版社,2002 You C F. CATIA V5 mechanical engineering[M]. Beijing: Tsinghua University Press, 2002 (in Chinese) [7] Rosen D W. Computer-aided design for additive manufacturing of cellular structures[J]. Computer-Aided Design and Applications, 2007,4(5):585-594 [8] Chu C, Graf G, Rosen D W. Design for additive manufacturing of cellular structures[J]. Computer-Aided Design and Applications, 2008,5(5):686-696 [9] Kruth J P, Wang X, Laoui T, et al. Lasers and materials in selective laser sintering[Z]. Integrated Product and Process Development, 2002:175-198 [10] Wettergreen M A, Bucklena B S, Starly B, et al. Creation of a unit block library of architectures for use in assembled scaffold engineering[J]. Computer-Aided Design, 2005,37(11):1141-1149 [11] Starly B, Lau W, Bradbury T, et al. Internal architecture design and freeform fabrication of tissue replacement structures[J]. Computer-Aided Design, 2006,38(2):115-124 [12] Starly B, Fang Z, Wei S, et al. Three-dimensional reconstruction for medical-CAD modeling[J]. Computer-Aided Design and Applications, 2005,2(1-4):431-438 [13] Nam J, Starly B, Darling A, et al. Computer aided tissue engineering for modeling and design of novel tissue scaffolds[J]. Computer-Aided Design and Applications, 2004,1(1-4):633-640 [14] Fang Z, Starly B, Wei S. Computer-aided characterization for effective mechanical properties of porous tissue scaffolds[J]. Computer-Aided Design, 2005,37(1):65-72 [15] Starly B, Lau A, Sun W, et al. Direct slicing of STEP based NURBS models for layered manufacturing[J]. Computer-Aided Design, 2005,37(4):387-397
点击查看大图
计量
- 文章访问数: 161
- HTML全文浏览量: 29
- PDF下载量: 43
- 被引次数: 0