This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
The Evolution of High Performance Amine-Extended RIM Systems
Annotation ability available
Sector:
Language:
English
Abstract
Limitations of conventional glycol-extended RIM systems offer the opportunity for improvements in processing latitude. Several shortcomings have been eliminated with the introduction of amine-extended RIM materials. However, the initial amine systems required high throughput machinery to mold large, thin cross-section parts. An improved amine-extended RIM material has therefore been introduced, which maintains the processing advantages of the initial systems, but provides significantly better flowability.
Authors
Topic
Citation
Taylor, R. and Phillips, B., "The Evolution of High Performance Amine-Extended RIM Systems," SAE Technical Paper 810121, 1981, https://doi.org/10.4271/810121.Also In
References
- Ludwico W. A. Cekoric M. E. “Automation of the RIM Process.” Paper 760336 SAE Automotive Engineering Congress and Exposition Detroit, MI February 23-27, 1976
- Ludwico W. A. Taylor R. P. “The Bayflex 110 Series - The New Generation of RIM Materials.” Paper 770836 SAE Automotive Engineering Congress and Exposition Detroit, MI September 26-29, 1977
- Weber C. Schaefer H. Bayer AG U.S. 4218543 August 18 1980
- Metzger S. H. “Reaction Injection Molding,” Becker W. E. Van Nostrand Reinhold Co. New York 1979
- Taylor R. P. “Quantifying the Shrinkage of High Reactivity RIM Systems.” First International Conference on Reactive Polymer Processing Pittsburgh, PA Oct 30, 1980