Die-less Forming of Thermoplastic-Matrix Continuous Fiber Composite Materials—Process and Demonstration-Reference-Cited by-同舟云学术

Die-less Forming of Thermoplastic-Matrix Continuous Fiber Composite Materials—Process and Demonstration

Published:1995-11-01 Issue:4 Volume:117 Page:501-507
ISSN:0022-0817
Container-title:Journal of Engineering for Industry
language:en
Short-container-title:

Author:

Ramani K.¹,Miller A. K.¹,Cutkosky M. R.¹

Affiliation:

1. Stanford University, Stanford, CA 94305

Abstract

Conventionally, large components made of thermoplastic matrices and continuous fibers are manufactured in autoclaves using dies. As the applications of composite materials increase, there is a need to reduce costs and increase manufacturing flexibility. This need has led to the development of a new concept called “die-less forming”. The concept of “kinematically admissible bending” is central to the concept of die-less forming. The concepts behind die-less forming have been tested in preliminary experiments on a two-roller demonstration machine. Induction heating was used to locally heat the composite as it moved into the forming zone, where it was bent using a specially designed cluster roller. Induction heating combined with a variable velocity profile was successful in establishing a uniform heating profile. Experiments were conducted for multidirectional APC-2 carbon/PEEK fiber composites and the composite bending behavior was explained using energy methods.

Publisher

ASME International

Subject

General Medicine

Link

http://asmedigitalcollection.asme.org/manufacturingscience/article-pdf/117/4/501/6494115/501_1.pdf

Reference13 articles.

1. Ramani, K., Cutkosky, M. R., and Miller, A. K., 1990, “Kinematically Admissible Motion Planning for Die-less forming of Fiber-Reinforced Composites,” ASME-PED, Vol. 47, pp. 105–115, Advances in Integrated Product Design and Manufacturing.

2. Ramani, K., Miller, A. K., and Cutkosky, M. R., 1991, “An Elastic/Visco-Plastic Model to Predict Composite Bending Behavior in Die-Less Forming,” ASME-MD, Vol. 29, pp. 509–534, Plastics and Plastic Composites: Material Properties, Part Performance, and Process Simulation.

3. Miller, A. K., Ramani, K., Gur, M., Peled, A., and Payne, A., 1990, “Maintaining Fiber Alignment during Die-less Forming,” Seventh Industry Government Review of Thermoplastic Matrix Composites, San Diego, CA, March.

4. Ramani K. , CutkoskyM. R., MillerA. K., and VinciR. P., 1990, “Kinematically Admissible Die-less Forming of Long Tapered Components of Thermoplastic Composites,” International SAMPE Technical Conference Series, Vol. 22, pp. 98–111.

5. Ramani, K., Vinci, R. P., Miller, A. K., and Cutkosky, M. R., 1991, “Die-less Forming of Thermoplastic Composites: Experiments on the Demonstration Machine,” 23rd International SAMPE Technical Conference, San Diego, CA, April 15–18.

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