Analysis of thermal cycling efficiency and optimal design of heating/cooling systems for rapid heat cycle injection molding process
Author:
Publisher
Elsevier BV
Subject
Applied Mathematics,General Mathematics
Reference37 articles.
1. Temperature measurements in the depth and at the surface of injected thermoplastic parts;Farouq;Measurement,2005
2. Dubay R, Pramujati B, Hernandez J. Cavity temperature control in plastic injection molding. In: Proceedings of the 2005 IEEE international conference on mechatronics and automations, vol. 2; 2005. p. 911–6.
3. Cavity temperature – an important parameter in the injection molding process;Čatić;Polym Eng Sci,1979
4. Effects of injection-molding conditions on the gloss and color of pigmented polypropylene;Pisciotti;Polym Eng Sci,2005
5. Variable mold temperature to improve surface quality of microcellular injection molded parts using induction heating technology;Chen;Adv Polymer Technol,2008
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