1.1 Hong-xia, Yu J, Hiragushi K. Surface Modification of Graphite with In-situ Formed ZrBz-Alz 03 Composite Powder [A]. The Third International Symposium on Refractories [C]. Beijing, 1998. 298-300. FAN Jing-lian, HUANG Bo-yun, LIU Jun, et al. Principle of Microwave Sintering and Present Situation of Research [J]. Powder Metallurgical Industry, 2004, 14(1) : 29-33. WANG Nian, ZHOU Jian. Characteristics and Applications of Microwave Sintering on Ceramic Materials [J]. Journal of Sci- ence and Technology University Wuhan, 2002, 24(5): 43-46. [5] [4] (Continued From Page 43) Agile management and harmony redound to communicating information, increasing efficiency, and reducing redundancy. Meanwhile it is beneficial for exciting creativity, clearing conflict and making the best of resource. 4 Conclusions (1) Heat treatment CAD/CAE has been in- tegrated into concurrent design for die and mould and heat treatment is graphed, which can increase efficiency, easily discover problems and clear con- flicts. (2) Die and mould development is performed on the same platform. When the heat treatment process is made out, designers can obtain correlative information and transfer self-information to other design departments on the platform. (3) Making out correct development schedule and adjusting it in time can enormously shorten the development period and reduce cost. References : ZHOU Xiong-hui, PENG Ying-hong. The Theory and Tech- nique of Modern Die and Mould Design and Manufacture [MI. Shanghai: Shanghai Jiaotong University Press, 2000 (in Chi- nese). Kang M, Park S Computer Integrated Mold Manufacturing [Jl. Int J Computer Integrated Manufacturing, 1995, 5: 229-239. Yau H T, Meno C H. Concurrent Process Planning for Finish- ing Milling and Dimensional Inspection of Sculptured Surface in Die and Mould Manufacturing [J]. Int J Product Research, 1993, 31(11): 2709-2725. I1 Xiang, ZHOU Xiong-hui, RUAN Xueyu. Application of Injection Mold Collaborative Manufacturing System [J]. Jour- nal of Shanghai Jiaotong University, 2000, 35(4) : 1391-1394. Kuzman K, Nardin B, KovaS M, et al. The Integration of Rapid Prototyping and CAE in Mould Manufacturing [J]. J Materials Processing Technology, 2001, 111: 279-285. LI Xiong, ZHANG Hong-bing, RUAN Xueyu, et al. Heat Treatment Process Design Oriented Based on Concurrent Engi- neering [J]. Journal of Iron and Steel Research, 2002, 14(4) : 26-29.
摘要:传统的串行模式模具设计方法存在诸多弊端,但总体还是不错的。众所周知,热处理是非常重要的模具处理方法。模具工艺的开发是为了克服热处理工艺存在的缺点。热处理CAD/CAE与并行环境下的集成,建立了相应的模型。这些调查可以显著提高效率,降低成本,保证质量,研发产品。
毕业论文关键词:模具设计;热处理;模具
传统的模具设计,主要采用经验或半经验,从生产过程中分离。设计完成之前,该模具方案通常是修改时间,再次,因此一些缺点应运而生,开发周期长等,高成本和不确定的实际效果。由于强烈的欲望精度,使用寿命,开发周期和成本,
现代模具要求设计和制造完美的。因此,越来越多的先进技术创新已应用于,例如,并行工程,敏捷制造,虚拟制造,协同设计,等。模具热处理是重要的设计,制造和装配,因为它有在生产中起重要作用,组件和服务生活。和模具制造设计 模具热处理并行设计英文文献和中文翻译(4):http://www.751com.cn/fanyi/lunwen_29374.html