A comparison of rapid prototyping techniques used for wind tunnel model fabrication

被引:49
|
作者
Chuk, Raymond N. [1 ]
Thomson, Vincent J. [1 ]
机构
[1] McGill Univ, Dept Mech Engn, Quebec City, PQ, Canada
来源
RAPID PROTOTYPING JOURNAL | 1998年 / 4卷 / 04期
关键词
D O I
10.1108/13552549810239030
中图分类号
TH [机械、仪表工业];
学科分类号
0802 ;
摘要
For faster new product introduction aerospace companies are interested in reducing the time it takes to make wind tunnel models. The increased capabilities of rapid prototyping technologies has made them attractive for this purpose. A study was done of rapid prototyping technologies and their ability to make components for wind tunnel models in a timely and cost effective manner. Components and corresponding fabrication technologies were put into three categories: non-structurally loaded, lightly loaded and highly loaded according to the stress endured during wind tunnel tests, Rapid prototyping technologies were found capable for non-structurally loaded parts, but numerically controlled machining was still best for any part enduring significant loads.
引用
收藏
页码:185 / 196
页数:12
相关论文
共 50 条
  • [1] Rapid prototyping techniques for the fabrication of novel biosensors
    Univ of Washington, Seattle, United States
    Annals of Biomedical Engineering, 2000, 28 (SUPPL. 1)
  • [2] Comparison of Microscale Rapid Prototyping Techniques
    Hoople, Gordon D.
    Rolfe, David A.
    McKinstry, Katherine C.
    Noble, Joanna R.
    Dornfeld, David A.
    Pisano, Albert P.
    JOURNAL OF MICRO AND NANO-MANUFACTURING, 2014, 2 (03):
  • [3] Aeroelastic wind tunnel model for tail buffeting analysis using rapid prototyping technologies
    Katzenmeier L.
    Vidy C.
    Kolb A.
    Breitsamter C.
    CEAS Aeronautical Journal, 2021, 12 (03) : 633 - 651
  • [4] Fabrication of EDM electrodes using rapid prototyping techniques
    Kooijmans, B
    Knoppers, R
    RAPID AND VIRTUAL PROTOTYPING AND APPLICATIONS, 2003, : 229 - 237
  • [5] Comparison of laser based rapid prototyping techniques
    Humphreys, H
    Wimpenny, D
    SEVENTH INTERNATIONAL CONFERENCE ON LASER AND LASER-INFORMATION TECHNOLOGIES, 2001, 4644 : 407 - 413
  • [6] Production of wind tunnel testing models with use of rapid prototyping methods
    Department of Mechanical Engineering, K. N. Toosi University of Technology, Tehran, Iran
    WSEAS Trans. Circuits Syst., 2006, 4 (555-561):
  • [7] A review paper on rapid prototyping and rapid tooling techniques for fabrication of prosthetic socket
    Aherwar, Amit
    Singh, Amit
    Patnaik, Amar
    HIGH VALUE MANUFACTURING: ADVANCED RESEARCH IN VIRTUAL AND RAPID PROTOTYPING, 2014, : 345 - 353
  • [8] Rapid prototyping techniques used to produce medical models/implants
    Laoui, T
    Shaik, SK
    RAPID AND VIRTUAL PROTOTYPING AND APPLICATIONS, 2003, : 23 - 32
  • [9] COMPARISON OF MICROSCALE RAPID PROTOTYPING TECHNIQUES FOR MICROFLUIDIC APPLICATIONS
    Hoople, Gordon D.
    Rolfe, David A.
    McKinstry, Katherine C.
    Noble, Joanna R.
    Dornfeld, David A.
    Pisano, Albert P.
    PROCEEDINGS OF THE ASME 9TH INTERNATIONAL MANUFACTURING SCIENCE AND ENGINEERING CONFERENCE, 2014, VOL 1, 2014,
  • [10] Photogrammetric Scanning Technique and Rapid Prototyping Used for Prostheses and Orthoses Fabrication
    Ciobanu, Octavian
    Ciobanu, Gabriela
    Rotariu, Mariana
    INNOVATIVE MANUFACTURING ENGINEERING, 2013, 371 : 230 - +
12345