Epoxy resin surface functionalization using atmospheric pressure plasma jet treatment
Atmospheric pressure plasma jet (APPJ) of N2 has been applied to promote adhesion between the epoxy resin post and composite core material due to the chemical active functional groups created. The APPJ was proved to be able to improve adhesive ability of the epoxy resin through the polar groups such...
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th-cmuir.6653943832-516782018-09-04T06:14:44Z Epoxy resin surface functionalization using atmospheric pressure plasma jet treatment Waleepan Sangprasert Piyarat Nimmanpipug Piriya Yavirach Vannajan Sanghiran Lee Dheerawan Boonyawan Engineering Physics and Astronomy Atmospheric pressure plasma jet (APPJ) of N2 has been applied to promote adhesion between the epoxy resin post and composite core material due to the chemical active functional groups created. The APPJ was proved to be able to improve adhesive ability of the epoxy resin through the polar groups such as carbonyl group on its surface revealed by decreasing contact angle. The jet was generated from N2/Ar and N2/He gas mixture with ratio as low as 0.40-0.44 vol %, respectively. The optical emission spectrometry showed that the active species which could react with the substrate surface are nitrogen molecules and nitrogen molecules ion. The radial distribution functions (RDFs) calculations indicated that the most probable position of nitrogen active species reacting on the epoxy surface is at hydroxyl group with hydrogen bonding distance less than 35 nm. © 2012 The Japan Society of Applied Physics. 2018-09-04T06:06:05Z 2018-09-04T06:06:05Z 2012-01-01 Journal 13474065 00214922 2-s2.0-84857229000 10.1143/JJAP.51.01AJ04 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84857229000&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/51678 |
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Engineering Physics and Astronomy |
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Engineering Physics and Astronomy Waleepan Sangprasert Piyarat Nimmanpipug Piriya Yavirach Vannajan Sanghiran Lee Dheerawan Boonyawan Epoxy resin surface functionalization using atmospheric pressure plasma jet treatment |
| description |
Atmospheric pressure plasma jet (APPJ) of N2 has been applied to promote adhesion between the epoxy resin post and composite core material due to the chemical active functional groups created. The APPJ was proved to be able to improve adhesive ability of the epoxy resin through the polar groups such as carbonyl group on its surface revealed by decreasing contact angle. The jet was generated from N2/Ar and N2/He gas mixture with ratio as low as 0.40-0.44 vol %, respectively. The optical emission spectrometry showed that the active species which could react with the substrate surface are nitrogen molecules and nitrogen molecules ion. The radial distribution functions (RDFs) calculations indicated that the most probable position of nitrogen active species reacting on the epoxy surface is at hydroxyl group with hydrogen bonding distance less than 35 nm. © 2012 The Japan Society of Applied Physics. |
| format |
Journal |
| author |
Waleepan Sangprasert Piyarat Nimmanpipug Piriya Yavirach Vannajan Sanghiran Lee Dheerawan Boonyawan |
| author_facet |
Waleepan Sangprasert Piyarat Nimmanpipug Piriya Yavirach Vannajan Sanghiran Lee Dheerawan Boonyawan |
| author_sort |
Waleepan Sangprasert |
| title |
Epoxy resin surface functionalization using atmospheric pressure plasma jet treatment |
| title_short |
Epoxy resin surface functionalization using atmospheric pressure plasma jet treatment |
| title_full |
Epoxy resin surface functionalization using atmospheric pressure plasma jet treatment |
| title_fullStr |
Epoxy resin surface functionalization using atmospheric pressure plasma jet treatment |
| title_full_unstemmed |
Epoxy resin surface functionalization using atmospheric pressure plasma jet treatment |
| title_sort |
epoxy resin surface functionalization using atmospheric pressure plasma jet treatment |
| publishDate |
2018 |
| url |
https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84857229000&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/51678 |
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