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Rheometer Design to Investigate Abrasive Magnetorheological Fluids
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更新:2023-05-10 13:46:50 浏览:677次
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摘要
Abstract
In the past few decades, abrasive magnetorheological fluids (abrasive MRF) became increasingly important for the grinding and finishing process of high-precision components.[1] Namely, magnetorheological finishing and magnetic abrasive finishing feature highly promising grinding processes.[2], [3]
Within this contribution, we present a novel rheometer design to capture fundamental properties of abrasive MRF. The aim of this work is to develop a test bench that can be used to measure both the rheological and abrasive quantities of an arbitrary abrasive MRF. Key features are the wide range of applicable work piece materials and MRF as well as the straight forward handling of the test bench. The design promises better insights into the behaviour of abrasive MRF.
The design of the rheometer is introduced and an FE-model is established using the software COMSOL Multiphysics. The MRF is located in an axial shear gap with a stationary outer cylinder and a rotating inner cylinder. The inner cylinder is used as a specimen to measure the material removal process. It is realized as a simple geometry and can be easily disassembled and replaced to determine material removal. Further, experiments are performed with an exemplary abrasive MRF. The corresponding rheological properties are analysed and compared to the model results. Finally, the material removal rates are investigated using optical methods and weight examination.[1]
Reference:
[1] Kumar, M. and Singh Yadav, H. N. An overview of magnetorheological polishing fluid applied in nano-finishing of components, Journal of Micromanufacturing, Volume 5, Number 2, p. 82-100, 2022.
[2] Narayan, L. and Agarwal, H., Magnetorheological Finishing (MRF) of a Freeform Non-magnetic Work Material, International Journal of Advanced Mechanical Engineering, Volume 4, Number 6, p. 611-618, 2014.
[3] Wang, A. and Lee, S., Study the characteristics of magnetic finishing with gel abrasive, International Journal of Machine Tools & Manufacture, Volume 49, p. 1063-1069, 2009.
In the past few decades, abrasive magnetorheological fluids (abrasive MRF) became increasingly important for the grinding and finishing process of high-precision components.[1] Namely, magnetorheological finishing and magnetic abrasive finishing feature highly promising grinding processes.[2], [3]
Within this contribution, we present a novel rheometer design to capture fundamental properties of abrasive MRF. The aim of this work is to develop a test bench that can be used to measure both the rheological and abrasive quantities of an arbitrary abrasive MRF. Key features are the wide range of applicable work piece materials and MRF as well as the straight forward handling of the test bench. The design promises better insights into the behaviour of abrasive MRF.
The design of the rheometer is introduced and an FE-model is established using the software COMSOL Multiphysics. The MRF is located in an axial shear gap with a stationary outer cylinder and a rotating inner cylinder. The inner cylinder is used as a specimen to measure the material removal process. It is realized as a simple geometry and can be easily disassembled and replaced to determine material removal. Further, experiments are performed with an exemplary abrasive MRF. The corresponding rheological properties are analysed and compared to the model results. Finally, the material removal rates are investigated using optical methods and weight examination.[1]
Reference:
[1] Kumar, M. and Singh Yadav, H. N. An overview of magnetorheological polishing fluid applied in nano-finishing of components, Journal of Micromanufacturing, Volume 5, Number 2, p. 82-100, 2022.
[2] Narayan, L. and Agarwal, H., Magnetorheological Finishing (MRF) of a Freeform Non-magnetic Work Material, International Journal of Advanced Mechanical Engineering, Volume 4, Number 6, p. 611-618, 2014.
[3] Wang, A. and Lee, S., Study the characteristics of magnetic finishing with gel abrasive, International Journal of Machine Tools & Manufacture, Volume 49, p. 1063-1069, 2009.
关键词
Abrasive magnetorheological fluids, Rheometer design
报告人
Valentin Schreiner
Research Assistant Technische Universität Berlin稿件作者
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重要日期
-
会议日期
06月09日
2023
至06月12日
2023
-
03月15日 2023
摘要录用通知日期
-
03月31日 2023
摘要截稿日期
-
06月12日 2023
注册截止日期
-
09月20日 2023
初稿截稿日期
主办单位
Chongqing University
University of Science and Technology of China
University of Science and Technology of China
联系方式
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- er******@cqu.edu.cn
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