Experimental Study on the Friction Characteristics of Lasertex Steel Sheets During Metal Forming Process
The surface of steel sheets used in the metal-forming process discussed in this article was textured by a laser-ablation technique. Differently shaped craters are formed in a patterned structure on the steel surface by controlling the pulsed-laser power density, pulse-repetition rate, and pulse dura...
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| Published in: | Tribology transactions Vol. 48; no. 2; pp. 245 - 249 |
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| Main Authors: | , , |
| Format: | Journal Article |
| Language: | English |
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01-04-2005
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| Abstract | The surface of steel sheets used in the metal-forming process discussed in this article was textured by a laser-ablation technique. Differently shaped craters are formed in a patterned structure on the steel surface by controlling the pulsed-laser power density, pulse-repetition rate, and pulse duration. Lasertex sheets formed by this process have unique friction characteristics because of the uniform surface roughness and valley-biased topography. The friction of lasertex sheets was studied using a metal-forming bench test rig. Influencing factors, including surface roughness and sliding velocity, were studied under lubricated conditions. The friction of lasertex sheets was compared with that of shot-blasted sheets. The results showed that the coefficient of friction of the lasertex sheet under dry friction decreases with an increase in surface roughness and changes little with varying sliding velocity. With lubrication, the coefficient of friction of the lasertex sheet rises with an increase in surface roughness and decreases with an increase in sliding velocity. Lasertex sheets were found to have lower friction coefficients than shot-blasted sheets over the rage of surface roughness and sliding velocity investigated. |
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| AbstractList | The surface of steel sheets used in the metal-forming process discussed in this article was textured by a laser-ablation technique. Differently shaped craters are formed in a patterned structure on the steel surface by controlling the pulsed-laser power density, pulse-repetition rate, and pulse duration. Lasertex sheets formed by this process have unique friction characteristics because of the uniform surface roughness and valleybiased topography. The friction of lasertex sheets was studied using a metal-forming bench test rig. Influencing factors, including surface roughness and sliding velocity, were studied under lubricated conditions. The friction of lasertex sheets was compared with that of shot-blasted sheets. The results showed that the coefficient of friction of the lasertex sheet under dry friction decreases with an increase in surface roughness and changes little with varying sliding velocity. With lubrication, the coefficient of friction of the lasertex sheet rises with an increase in surface roughness and decreases with an increase in sliding velocity. Lasertex sheets were found to have lower friction coefficients than shot-blasted sheets over the rage of surface roughness and sliding velocity investigated. [PUBLICATION ABSTRACT] The surface of steel sheets used in the metal-forming process discussed in this article was textured by a laser-ablation technique. Differently shaped craters are formed in a patterned structure on the steel surface by controlling the pulsed-laser power density, pulse-repetition rate, and pulse duration. Lasertex sheets formed by this process have unique friction characteristics because of the uniform surface roughness and valley-biased topography. The friction of lasertex sheets was studied using a metal-forming bench test rig. Influencing factors, including surface roughness and sliding velocity, were studied under lubricated conditions. The friction of lasertex sheets was compared with that of shot-blasted sheets. The results showed that the coefficient of friction of the lasertex sheet under dry friction decreases with an increase in surface roughness and changes little with varying sliding velocity. With lubrication, the coefficient of friction of the lasertex sheet rises with an increase in surface roughness and decreases with an increase in sliding velocity. Lasertex sheets were found to have lower friction coefficients than shot-blasted sheets over the rage of surface roughness and sliding velocity investigated. |
| Author | BARBER, G. C. GAO, H. TUNG, S. C. |
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| Cites_doi | 10.1016/0043-1648(94)90132-5 |
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| Copyright | Copyright Taylor & Francis Group, LLC 2005 Copyright Society of Tribologists and Lubrication Engineers Apr-Jun 2005 |
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| DOI | 10.1080/05698190590929099 |
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| References | El-Menshawy F. (CIT0002) 1991 Chen G. (CIT0007) 1992 CIT0010 Dolves J. (CIT0003) 1991 CIT0001 Bradard A. (CIT0004) 1985 Simao J. M. (CIT0011) 1996 Defourny J. A. (CIT0005) 1991 CIT0009 Ujihara S. (CIT0006) 1991 CIT0008 |
| References_xml | – ident: CIT0009 doi: 10.1016/0043-1648(94)90132-5 – start-page: pp 38 year: 1991 ident: CIT0005 publication-title: Iron and Steel Engineer contributor: fullname: Defourny J. A. – volume-title: Laser Texturing Process and Equipment for Rolls year: 1992 ident: CIT0007 contributor: fullname: Chen G. – ident: CIT0001 – start-page: pp 33 year: 1991 ident: CIT0003 publication-title: Iron and Steel Engineer contributor: fullname: Dolves J. – volume-title: Congress: Advances in Cold Rolling Technology year: 1985 ident: CIT0004 contributor: fullname: Bradard A. – start-page: pp 52 year: 1991 ident: CIT0006 publication-title: Iron and Steel Engineer contributor: fullname: Ujihara S. – ident: CIT0008 – ident: CIT0010 – start-page: pp 42 year: 1996 ident: CIT0011 publication-title: Iron and Steel Engineer contributor: fullname: Simao J. M. – start-page: pp 52 year: 1991 ident: CIT0002 publication-title: Iron and Steel Engineer contributor: fullname: El-Menshawy F. |
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| StartPage | 245 |
| SubjectTerms | Coefficient of Friction Lasers Lasertex Sheet Lubricants & lubrication Metal forming Sliding friction Sliding Velocity Surface Pattern Surface Roughness Tribology |
| Title | Experimental Study on the Friction Characteristics of Lasertex Steel Sheets During Metal Forming Process |
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