The effect of vibration cutting on minimum cutting thickness
In the ultra-precision diamond cutting process, the rake angle of the tool becomes negative because the edge radius of a tool is considerably larger compared to the sub-micrometer depth of the cut. The effects of plowing due to the large negative rake angle result in an unstable cutting process with...
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| Published in | International journal of machine tools & manufacture Vol. 46; no. 15; pp. 2066 - 2072 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
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Elsevier Ltd
01.12.2006
Elsevier |
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| Abstract | In the ultra-precision diamond cutting process, the rake angle of the tool becomes negative because the edge radius of a tool is considerably larger compared to the sub-micrometer depth of the cut. The effects of plowing due to the large negative rake angle result in an unstable cutting process without continuous chip. For this reason, it is important to determine minimum cutting thickness in order to enable greater machining accuracy to be obtained by fine and stable machining. It was previously reported that the critical depth of cut with a continuous chip was determined by the tool sharpness and the friction coefficient between a workpiece and a tool [S.M. Son, et al., Effects of the friction coefficient on the minimum cutting thickness in micro cutting, International Journal of Machine Tools and Manufacture 45 (2005) 529–535]. For the same edge radius of a tool, the higher the friction coefficient of the tool–workpiece, the thinner the minimum cutting thickness becomes. Therefore, it is believed that increasing the friction coefficient by a physical method would be effective to achieve thinner stable cutting. In this study, the possibility of reducing the minimum cutting thickness was investigated through changing the friction coefficient of a tool–workpiece. The vibration cutting method is applied to increase the friction coefficient. Experimental results show that the cutting technology is efficient for increasing the friction coefficient and decreasing the minimum cutting thickness. The minimum cutting thickness was reduced by about 0.02–0.04
μm depending on materials and vibration conditions. |
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| AbstractList | In the ultra-precision diamond cutting process, the rake angle of the tool becomes negative because the edge radius of a tool is considerably larger compared to the sub-micrometer depth of the cut. The effects of plowing due to the large negative rake angle result in an unstable cutting process without continuous chip. For this reason, it is important to determine minimum cutting thickness in order to enable greater machining accuracy to be obtained by fine and stable machining. It was previously reported that the critical depth of cut with a continuous chip was determined by the tool sharpness and the friction coefficient between a workpiece and a tool [S.M. Son, et al., Effects of the friction coefficient on the minimum cutting thickness in micro cutting, International Journal of Machine Tools and Manufacture 45 (2005) 529–535]. For the same edge radius of a tool, the higher the friction coefficient of the tool–workpiece, the thinner the minimum cutting thickness becomes. Therefore, it is believed that increasing the friction coefficient by a physical method would be effective to achieve thinner stable cutting. In this study, the possibility of reducing the minimum cutting thickness was investigated through changing the friction coefficient of a tool–workpiece. The vibration cutting method is applied to increase the friction coefficient. Experimental results show that the cutting technology is efficient for increasing the friction coefficient and decreasing the minimum cutting thickness. The minimum cutting thickness was reduced by about 0.02–0.04
μm depending on materials and vibration conditions. In the ultra-precision diamond cutting process, the rake angle of the tool becomes negative because the edge radius of a tool is considerably larger compared to the sub-micrometer depth of the cut. The effects of plowing due to the large negative rake angle result in an unstable cutting process without continuous chip. For this reason, it is important to determine minimum cutting thickness in order to enable greater machining accuracy to be obtained by fine and stable machining. It was previously reported that the critical depth of cut with a continuous chip was determined by the tool sharpness and the friction coefficient between a workpiece and a tool [S.M. Son, et al., Effects of the friction coefficient on the minimum cutting thickness in micro cutting, International Journal of Machine Tools and Manufacture 45 (2005) 529-535]. For the same edge radius of a tool, the higher the friction coefficient of the tool-workpiece, the thinner the minimum cutting thickness becomes. Therefore, it is believed that increasing the friction coefficient by a physical method would be effective to achieve thinner stable cutting. In this study, the possibility of reducing the minimum cutting thickness was investigated through changing the friction coefficient of a tool-workpiece. The vibration cutting method is applied to increase the friction coefficient. Experimental results show that the cutting technology is efficient for increasing the friction coefficient and decreasing the minimum cutting thickness. The minimum cutting thickness was reduced by about 0.02-0.04 mum depending on materials and vibration conditions. |
| Author | Son, SeongMin Ahn, JungHwan Lim, HanSeok |
| Author_xml | – sequence: 1 givenname: SeongMin surname: Son fullname: Son, SeongMin email: mpessm@nus.edu.sg organization: Department of Mechanical Engineering, National University of Singapore, 10 Kent Ridge Crescent, Singapore 119260, Singapore – sequence: 2 givenname: HanSeok surname: Lim fullname: Lim, HanSeok organization: Department of Mechanical Engineering, National University of Singapore, 10 Kent Ridge Crescent, Singapore 119260, Singapore – sequence: 3 givenname: JungHwan surname: Ahn fullname: Ahn, JungHwan organization: Department of Mechanical and Intelligent Systems Engineering, Pusan National University, Busan 609-735, Republic of Korea |
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| Cites_doi | 10.1016/S0043-1648(96)07314-0 10.1016/S0007-8506(07)61171-8 10.1016/j.ijmachtools.2004.09.001 10.1016/S0043-1648(99)00051-4 10.1016/0043-1648(96)07218-3 10.1016/S0007-8506(07)62397-X 10.1016/S0043-1648(01)00585-3 10.1016/S0924-0136(96)02429-6 10.1016/S0043-1648(01)00852-3 10.1016/S0924-0136(01)01262-6 10.1016/S0007-8506(07)62053-8 10.1016/S0007-8506(07)61593-5 10.1016/0043-1648(77)90130-2 |
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| Keywords | Friction coefficient Vibration cutting Minimum cutting thickness Vibration Precision engineering Micromachining High precision Machining Diamond Contact angle Experimental study Plowing Penetration depth Variable section Rake angle Machine tool Abrasive wear |
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| References_xml | – volume: 40 year: 1991 ident: bib14 article-title: Ultrasonic diamond turning of stainless steel by applying ultrasonic vibration publication-title: Annals of the CIRP contributor: fullname: Shamoto – volume: 41 year: 1992 ident: bib15 article-title: Ultraprecision ductile cutting of glass by applying ultrasonic vibration publication-title: Annals of the CIRP contributor: fullname: Shamoto – year: 1999 ident: bib18 article-title: Handbook of Micro/Nano Tribology contributor: fullname: Bhushan – volume: 45 start-page: 529 year: 2005 end-page: 535 ident: bib1 article-title: Effects of the friction coefficient on the minimum cutting thickness in micro cutting publication-title: International Journal of Machine Tools and Manufacture contributor: fullname: Ahn – year: 1986 ident: bib7 article-title: Friction and Lubrication of Solids contributor: fullname: Tabor – volume: 225–226 start-page: 319 year: 1999 end-page: 328 ident: bib10 article-title: Single-pass pendulum 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| SubjectTerms | Applied sciences Exact sciences and technology Friction coefficient Mechanical engineering. Machine design Minimum cutting thickness Precision engineering, watch making Vibration cutting |
| Title | The effect of vibration cutting on minimum cutting thickness |
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