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Keynote Speech 1 |
25 October (09:00~10:00) |
Name
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Prof. Dr.-Ing. Berend Denkena |
| Affiliation |
Head of Institute of Production Engineering and Machine Tools
Leibniz University of Hannover, Germany |
| Title |
Innovative Components for Microfactories | |
Abstract
Highly automated micro machines are the main parts of microfactories. In these machines, small scaled measurement systems are needed to detect the position of micro components and tools or to evaluate the work piece quality. Another part of the machines is the guidance of the axes. Friction free aerostatic and magnetic micro guidances can be used in micro machines. They enable a high precision and a low power consumption of the machine tool. For these axes small scaled capacitive sensors are a possibility to detect the distance between stator and rotor as an input value for the control systems. The design of the guidance is complex and the demands on the surface quality are high. To enable a highly productive production of the guidance, grinding technology with micro profiled grinding wheels is used. With this technology multiple grooves can be machined in one step. However, technologies for a highly productive micro structuring of large surfaces can also be utilized to produce for example micro dimples for tribological loaded surfaces, riblet structures on turbine blades or for the storage of information directly in the surface of components. |
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Biography
Prof. Berend Denkena received the Dr.-Ing. degree from the University of Hannover, Germany, in mechanical engineering in 1992. Afterwards he worked for Thyssen Production Systems in the United States before joining their subsidiary Hueller-Hille in Ludwigsburg as the director of the Machine Tool Development department. During the last five years of his industrial career he worked at Gildemeister Drehmaschinen in Bielefeld, where he led their product development area. In 2001 he joined Institute of Production Engineering and Machine Tools (IFW) at Leibniz University of Hannover. Since 2001 he has been the head of the IFW. For more information, please visit at www.ifw.uni-hannover.de. | |
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Keynote Speech 2 |
26 October 2010 (09:00~10:00) |
Name
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Byeongcheon Koh, Ph.D. |
| Affiliation |
Executive Vice President of Samsung Electro-Mechanics |
| Title |
Business Trend of Micro device and micro sensor | |
Abstract
Recently, IT products are becoming smaller but more powerful. In all of IT products like cellular phone, portable video game, laptop computer, customers now demand multi-function, down-size, high-performance at the same time. To meet these customer's needs, IT makers have put a lot of effort to find the solutions;best ways that can reduce the size, the cost, the power consumption of the products,or a totally new ways that can innovate the previous problems.Therefore, micro-scale manufacturing technology, micro device and micro sensorare getting more and more attention as the solution for IT products.
Samsung Electro-Mechanics is about to run a business for mobile devices(micro actuators, inertial sensors and RF-MEMS components) and inkjet printings(MEMS head) by using micro-scale manufacturing technology.Furthermore we are developing new technologies in advance for the future business; such as smart sensors for automobile, lab-on-a-chip for diagnose diseases, micro device and module for energy harvesting, micro sensors for smart grid and ubiquitous sensor network and so forth. |
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Biography
Executive Vice President of Samsung Electro-Mechanics.
Chairman of Corporate R&D Center.
Byeongcheon Koh had received his BS and MS degrees in Department of Mechanical Engineering in Seoul National University.
After getting his master degree, he had worked as a researcher of CAD/CAM of KIST from 1981 to 1985. He received Ph.D degree in Department of Mechanical Engineering in University of Michigan in US in 1988. From 1988 to 1992, he had worked as a research engineer in Korea Institute of Machinery and Materials, and also had worked as a senior engineer in Korea Automotive Technology Institute from 1992 to 1995.
In 1995, He began his career in Samsung Advanced Institute of Technology, and since 2004 he has worked as CTO of Corporate R&D Center of Samsung Electro-Mechanics so far. |
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Program 
