Construction and technical modification of grinding wheels for internal cylindrical grinding using scamper method of creative innovation design

  • Jarosław Plichta Koszalin University of Technology, Faculty of Mechanical Engineering
  • Krzysztof Nadolny Koszalin University of Technology, Faculty of Mechanical Engineering
  • Emilia Gierszewska
Keywords: SCAMPER method, innovative tool, grinding process, grinding wheel, hard-to-cut material

Abstract

This article describes a case study of an application of the method of creating innovations called SCAMPER for the development of new abrasive tools designed for machining of hard-to-cut materials. The SCAMPER method is used for innovative transformations of existing products, aimed at a modernization of their design, a construction and an extension of functions. This method was used in the procedure of modifying abrasive tools and it  permitted a generation of a set of innovative solutions in this field. The methodology made it also possible to logically organize individual creative activities supported by the previously accumulated theoretical and experimental knowledge.

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Author Biographies

Jarosław Plichta, Koszalin University of Technology, Faculty of Mechanical Engineering

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Jarosław Plichta received his M.Sc. degree in Mechanics and Machine Design and the next Ph.D as well as D.Sc. degree and the professor title in Machinery Construction and Operation, in 1976, 1981, 1997 and 2010, respectively. Since 2006, he has been the head of the Department of Production Engineering at the Koszalin University of Technology. His scientific interests focus on abrasive processes and tools, monitoring and diagnostics of machining processes as well as metrology. He has been managing 4 national research projects, presenting results of his work at many international and national conferences, published more than 120 scientific papers in international and national journals, book chapters, as well as conference proceedings. He is also the author of 6 monographs, 4 academic textbooks and 11 national patents.

Krzysztof Nadolny, Koszalin University of Technology, Faculty of Mechanical Engineering

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Krzysztof Nadolny received his M.Sc. degree in Mechanics and Machine Design and next the Ph.D (with honors) as well as D.Sc. degree in Machinery Construction and Operation from the Koszalin University of Technology, in 2001, 2006 and 2013, respectively. Since 2006, he has been a researcher in the Department of Production Engineering at the Koszalin University of Technology, where currently he works as an associated professor and the head of the research-didactic team for production planning and control. His scientific interests focus on problems concerning machining processes and tools, efficiency, monitoring and diagnostics of machining processes as well as tribology. He has participated in 2 international and 3 national research projects, presenting results of his work at 10 international and 21 national conferences, published more than 200 scientific papers in international and national journals, book chapters, as well as conference proceedings. He is also the author of 4 mono-graphs and 9 national patents.

Emilia Gierszewska

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Emilia Gierszewska received her B.Sc. degree in Management and Production Engineering from the Faculty of Mechanical Engineering at the Koszalin University of Technology in 2016. Her scientific interests focus on problems concerning implementation of innovative processes and products, rapid prototyping and reverse engineering methods as well as abrasive machining processes. She has presented the results of her work in one international and two national conferences. She is an author and a co-author of 4 scientific papers in conference proceedings.

Published
2018-04-26
How to Cite
Plichta, J., Nadolny, K. and Gierszewska, E. (2018) “Construction and technical modification of grinding wheels for internal cylindrical grinding using scamper method of creative innovation design”, Journal of Mechanical and Energy Engineering, 2(1), pp. 27-32. doi: 10.30464/jmee.2018.2.1.27.
Section
Mechanical Engineering