Tosello, Guido1; Griffiths, C.A.5; Hansen, Hans Nørgaard1; Dimov, S.S4
Humbert Noll, Nadja Adamovic, Stefan Dimov
1 Department of Mechanical Engineering, Technical University of Denmark2 Manufacturing Engineering, Department of Mechanical Engineering, Technical University of Denmark3 Cardiff University4 University of Birmingham5 Cardiff University
The European Large Scale Collaboration Project "COTECH" (Converging Technologies for Micro ystem Manufacturing, 2008-2012 has as one of its main objectives to improve the understanding of the micro injection moulding (μlM) process to enable its implementation in large-scale production conditions, and to propose innovative solutions of serial production control to ensure effective high quality industrial micro manufacture. Specific research work has been undertaken during the COTECH project in order to monitor, characterize, analyse, and simulate the μlM process. Relations between the fundamental process input parameters and process quality factors and material characteristics have been established. To meet the goal of high accuracy processing and manufacturing during the whole process chain, different means of optimization technologies based on the design of experiments method have been employed. Methods to enhance the performance of the optimization methods have been demonstrated and validated. Based on the research work carried out, selected μlM critical factors including μlM pressure, surface replication, filing flow pattern analysis, and process simulation are presented in this paper. Their effects and dependencies are describes, and recommendations for possible optimized process configuration discussed.
Proceedings of the 9th International Conference on Multi-material Micro Manufacture, 2012, p. 229-235
Micro injection moulding; Process control; Polymer; Simulation
Main Research Area:
9th International Conference on Multi-Material Micro Manufacture (4M2012), 2012