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A modular flexible scalable and reconfigurable system for manufacturing of microsystems based on additive manufacturing and E-printing

 
: Wögerer, Christian; Plasch, Matthias; Heidl, Wolfgang; Dickerhof, Markus; Kimmig, Daniel; Scholz, Steffen; Adamietz, Raphael; Iseringhausen, Tobias

Chen, F. ; Univ. of Texas, Austin:
Capturing competitive advantage via advanced manufacturing and enterprise transformation. Vol.2 : 24th International Conference on Flexible Automation & Intelligent Manufacturing 2014 (FAIM 2014); San Antonio, Texas, USA, 20-23 May 2014
Red Hook, NY: Curran, 2014
ISBN: 978-1-5108-2428-7
ISBN: 978-1-6059-5173-7
S.811-816
International Conference on Flexible Automation & Intelligent Manufacturing (FAIM) <24, 2014, San Antonio/Tex.>
Englisch
Konferenzbeitrag
Fraunhofer IPA ()
Additive Manufacturing (AM); Flexibles Produktionssystem (FPS); microsystems; SMARTLAM

Abstract
Generative manufacturing technologies are gaining more and more of importance as key enabling technologies in future manufacturing, especially when a flexible scalable manufacturing of small medium series of customized parts is required. The paper describes a new approach for design manufacturing of complex three dimensional components building on a combination of laminated objects manufacturing and e-printing technologies. The micro component is made up of stacks of functionalised layers of polymer film. The concept is currenly devloped further in the project SMARTLAM, funded by the European Commission. The manufacturing system is based on a modular approach which enables the manufacturing of different small size batches with different modules. Different modules can be combined by defined Hardware and software interfaces. Avoiding time consumable and difficult programming caused by manufacturing a new product a Function-Block Runtime (FORTE) executes generated control application platform-independently and coordinates component module functionalities. The control system will integrate all processes as well as the base platform with features far beyond ordinary PLC systems. One aspect is the use of process data out of the data acquisition system to simulate and optimize the processes. These results are incorporated into the main machine control system. Another aspect is the vision system for flexible quality control and closed-loop positioning control with visual serving. The paper shows the first example of manufacturing technologies and demonstrates the control system approach by the example of the control system for alignment of different stacks.

: http://publica.fraunhofer.de/dokumente/N-423757.html