Laser abrading of carbon fibre reinforced composite for improving paint adhesion

Tian Long See; Z Liu; S Cheetham; S Dilworth; L Li

doi:10.1007/s00339-014-8527-8

Laser abrading of carbon fibre reinforced composite for improving paint adhesion

Tian Long See, Z Liu, S Cheetham, S Dilworth, L Li

Mechanical and Aerospace Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

Surface contaminations (originating from manufacturing processes), smooth surface, and poor wettability of carbon fiber reinforced polymer (CFRP) composite impair its successful paint adhesion. Surface pretreatment of composite materials is often required. Previous approaches of using manual sand-papering result in non-uniform surface conditions and occasional damages to the fibres. Furthermore, the process is labour intensive, slow and can be hazardous to the workers if protections are not appropriate. This paper reports an investigation into a new surface treatment method based on laser multi-tasking surface abrading and surface cleaning/texturing for the improvement of paint adhesion. A KrF Excimer laser with a wavelength of 248 nm is used as the laser source. Significant improvement in paint adhesion has been demonstrated compared with as-received and sand-papered samples. This improvement is achieved by eliminating surface contaminants, minimizing chain scission and increasing in surface active functional groups as well as increasing in surface roughness. The former two play dominant roles.

Original language	English
Pages (from-to)	1045-1054
Number of pages	9
Journal	Applied Physics A
Volume	117
Issue number	3
DOIs	https://doi.org/10.1007/s00339-014-8527-8
Publication status	Published - Nov 2014

Keywords

SURFACE-TREATMENT; POLYMERIC MATERIALS; EXCIMER; TECHNOLOGY; PRETREATMENT; WETTABILITY; ACTIVATION; RADIATION; STRENGTH

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10.1007/s00339-014-8527-8

LPRC: Laser Processing Research Centre Impact
Allegre, O. (PI), Crosby, D. (PI), Domingos, M. (PI), Francis, J. (PI), Gillen, D. (PI), Guo, W. (PI), Li, L. (PI), Mativenga, P. (PI), Rogers, B. D. (PI), Whitehead, D. (PI), Wilson, D. (PI), Zhong, S. (PI), Mirhosseini, N. (Researcher), Ouyang, J. (Researcher), Huang, Y. (Researcher), Wei, C. (Researcher), Cheng, D. (PGR student), Suryo Pratomo, E. (PGR student), Zhang, Z. (PGR student), Li, Z. (PGR student), Mo, H. (PGR student), Zhu, M. (PGR student), Li, Q. (PGR student), Liu, W. (PGR student), Wang, L. (PGR student), Guo, H. (PGR student), Heinemann, R. (PI) & Liu, Z. (PI)
1/04/00 → …
Project: Research

Cite this

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title = "Laser abrading of carbon fibre reinforced composite for improving paint adhesion",

abstract = "Surface contaminations (originating from manufacturing processes), smooth surface, and poor wettability of carbon fiber reinforced polymer (CFRP) composite impair its successful paint adhesion. Surface pretreatment of composite materials is often required. Previous approaches of using manual sand-papering result in non-uniform surface conditions and occasional damages to the fibres. Furthermore, the process is labour intensive, slow and can be hazardous to the workers if protections are not appropriate. This paper reports an investigation into a new surface treatment method based on laser multi-tasking surface abrading and surface cleaning/texturing for the improvement of paint adhesion. A KrF Excimer laser with a wavelength of 248 nm is used as the laser source. Significant improvement in paint adhesion has been demonstrated compared with as-received and sand-papered samples. This improvement is achieved by eliminating surface contaminants, minimizing chain scission and increasing in surface active functional groups as well as increasing in surface roughness. The former two play dominant roles.",

keywords = "SURFACE-TREATMENT; POLYMERIC MATERIALS; EXCIMER; TECHNOLOGY; PRETREATMENT; WETTABILITY; ACTIVATION; RADIATION; STRENGTH",

author = "See, {Tian Long} and Z Liu and S Cheetham and S Dilworth and L Li",

year = "2014",

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doi = "10.1007/s00339-014-8527-8",

language = "English",

volume = "117",

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journal = "Applied Physics A",

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TY - JOUR

T1 - Laser abrading of carbon fibre reinforced composite for improving paint adhesion

AU - See, Tian Long

AU - Liu, Z

AU - Cheetham, S

AU - Dilworth, S

AU - Li, L

PY - 2014/11

Y1 - 2014/11

N2 - Surface contaminations (originating from manufacturing processes), smooth surface, and poor wettability of carbon fiber reinforced polymer (CFRP) composite impair its successful paint adhesion. Surface pretreatment of composite materials is often required. Previous approaches of using manual sand-papering result in non-uniform surface conditions and occasional damages to the fibres. Furthermore, the process is labour intensive, slow and can be hazardous to the workers if protections are not appropriate. This paper reports an investigation into a new surface treatment method based on laser multi-tasking surface abrading and surface cleaning/texturing for the improvement of paint adhesion. A KrF Excimer laser with a wavelength of 248 nm is used as the laser source. Significant improvement in paint adhesion has been demonstrated compared with as-received and sand-papered samples. This improvement is achieved by eliminating surface contaminants, minimizing chain scission and increasing in surface active functional groups as well as increasing in surface roughness. The former two play dominant roles.

AB - Surface contaminations (originating from manufacturing processes), smooth surface, and poor wettability of carbon fiber reinforced polymer (CFRP) composite impair its successful paint adhesion. Surface pretreatment of composite materials is often required. Previous approaches of using manual sand-papering result in non-uniform surface conditions and occasional damages to the fibres. Furthermore, the process is labour intensive, slow and can be hazardous to the workers if protections are not appropriate. This paper reports an investigation into a new surface treatment method based on laser multi-tasking surface abrading and surface cleaning/texturing for the improvement of paint adhesion. A KrF Excimer laser with a wavelength of 248 nm is used as the laser source. Significant improvement in paint adhesion has been demonstrated compared with as-received and sand-papered samples. This improvement is achieved by eliminating surface contaminants, minimizing chain scission and increasing in surface active functional groups as well as increasing in surface roughness. The former two play dominant roles.

KW - SURFACE-TREATMENT; POLYMERIC MATERIALS; EXCIMER; TECHNOLOGY; PRETREATMENT; WETTABILITY; ACTIVATION; RADIATION; STRENGTH

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JO - Applied Physics A

JF - Applied Physics A

IS - 3

ER -

Laser abrading of carbon fibre reinforced composite for improving paint adhesion

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Keywords

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