Abstract
Micro components are available in a variety of shapes sizing from 1 mm down to 0.01 mm. Today, their mass production is quite common using state of the art production technology. Micro spheres for example, are on the one hand available in lot sizes up to some thousands in a constant quality within micron accuracy. On the other hand they are quite commonly provided as bulk material with diameter variations of up to 10% in each lot size Brandau (Chem Ingenieur Tech 75:1741–1745, 2003). In both cases, the bulk micro components are usually arranged in incoherent batches which are packed in plastic bags or small jars for handling and shipping. The decollating of the single components for follow-up micro assembly processes is complicated by the well-known effects in micro handling such as dominating adhesion and friction forces (Petersen 2003). These effects limit the post processing of bulk micro components to manual work in order to sort and align the single micro components prior to their exposure to an automated assembly line. To enable a sophisticated and automated handling of the single micro components, automated sorting and alignment mechanisms are necessary to arrange the bulk micro components in a well defined pattern structure which is essential to realize an efficient automated micro assembly.
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References
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Acknowledgments
The authors would like to thank the German Research Foundation (DFG) for their support within the Collaborate Research Centre SFB 440. Through their funding of the sub-project A7 » Assembly Supporting Mechanical Structures for the Passive Alignment of Micro Components « the DFG has enabled the research activities described above.
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Brecher, C., Weinzierl, M. Parallel precision alignment of multiple micro components. Microsyst Technol 14, 1847–1853 (2008). https://doi.org/10.1007/s00542-008-0682-4
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DOI: https://doi.org/10.1007/s00542-008-0682-4