[1] Hua Guoran, **, Zhao Jianfeng, Zhang Jianhua, et al. Rapid Manufacturing of Metal Parts* [J]. Journal of Southeast University (English Edition), 2002, 18 (2): 123-127. [doi:10.3969/j.issn.1003-7985.2002.02.005]

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Rapid Manufacturing of Metal Parts^*()

金属零件的快速成型

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Journal of Southeast University (English Edition)[ISSN:1003-7985/CN:32-1325/N]

Volumn:

18

Issue:

2002 2

Page:

123-127

Research Field:

Mechanical Engineering

Publishing date:

2002-06-30

Info

Title:

Rapid Manufacturing of Metal Parts^*

金属零件的快速成型

Author(s):

Hua Guoran¹;  2**;  Zhao Jianfeng¹;  Zhang Jianhua¹;  Huang Yinhui¹;  Yu Chengye¹

¹Rapid Prototyping and Manufacturing Center, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, China
²Nantong Institute of Technology, Nantong 226007, China

花国然¹;  2;  赵剑峰¹;  张建华¹;  黄因慧¹;  余承业¹

¹南京航空航天大学机电学院, 南京 210016; ²南通工学院, 南通 226007

Keywords:

SLS;  metal parts;  rapid manufacturing

选区激光烧结;  金属零件;  快速制造

PACS:

TH16;TG665

DOI:

10.3969/j.issn.1003-7985.2002.02.005

Abstract:

As a key technology of rapid prototyping and manufacturing(RP&M), rapid manufacturing of metal parts is a target of RP&M. Introducing selective laser sintering(SLS), an important branch of RP&M, this paper gives a new method oriented on low-power SLS system to fabricate metal parts. With this kind of technology, the mixture of metal and polymer powder is sintered first to get green part, then, after debinding and metal infiltration, dense parts are gotten. In the end, influencing factors of this technology are analyzed. At the same time, some applications are given.

金属零件的快速制造是当前快速成型领域的一大研究热点.在介绍快速成型技术的一个重要分支——选区激光烧结与快速成形烧结系统RAP-Ⅰ基础上, 本文提出了一种基于小功率激光快速成型系统的金属零件成型新工艺.这种方法首先烧结金属与有机粘结剂的混合粉末, 生成“绿件”, 然后除粘、熔渗金属, 得到致密的金属件.文中给出了加工实例, 并对这种工艺的影响因素进行了详细的分析与讨论.

References:

[1] Anna Kochan. Rapid prototyping trends[J]. Rapid Prototyping Journal, 1997, 3(4):150-152.
[2] Carol Anderson. Rapid prototyping and manufacturing in the USA [J]. Rapid prototyping Journal, 1997, 3(3): 120-121.
[3] Terry T Wohlers. Worldwide developments and trends in rapid prototyping & tooling[A]. In: Yan Yongnian, ed. Proceeding of the First International Conference on Rapid Prototyping & Manufacturing[C]. Beijing, 1998.
[4] Gerken J, Haferkamp H, Schmidt H. Rapid prototyping/manufacturing of metal components by laser clading[A]. In: Proceedings of the 27th ISATA[C]. Aachen, Automotive Automation Ltd, Croydon, 1994.
[5] Michael Greulich, Matthias Greul, Theo Pintat. Fast, functional prototypes via multiphase jet solidification[J]. Rapid Prototyping Journal, 1995, 1(1):20-25.
[6] Kruth J P. Material incress manufacturing by rapid prototyping techniques[A]. In: Krurh, ed. Annals of the CIRP[C].Katholieke University, Leuven, 1991.
[7] Chua Chee Kai, Gan G K, Jacob. Interface between CAD and rapid prototyping systems. Part 1: A study of existing interfaces[J]. International Journal of Advanced Manufacturing Technology, 1997, 13:566-570.

Memo

Memo:

* The project supported by the National Natural Science Foundation of China(59935110).
** Born in 1964, male, doctor, associate professor.

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