Debonding of bonded composite joints with TEP modified epoxy adhesives
Prevention of mechanical and thermal damage to the composite parts is crucial during the debonding process of adhesive joints. This work highlights the impact of thermally expanded particles (TEPs) on bulk adhesive properties and the lap shear strength of adhesively bonded GFRP joints. FTIR studies...
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sg-ntu-dr.10356-1643112023-01-16T02:27:06Z Debonding of bonded composite joints with TEP modified epoxy adhesives Caglar, Hasan Sridhar, Idapalapati Sharma, Mohit Chian, Kerm Sin School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Adhesive Joint Debonding Prevention of mechanical and thermal damage to the composite parts is crucial during the debonding process of adhesive joints. This work highlights the impact of thermally expanded particles (TEPs) on bulk adhesive properties and the lap shear strength of adhesively bonded GFRP joints. FTIR studies revealed insignificant chemical changes occurring among the epoxy and its blend with TEPs. The addition of TEPs has slightly influenced the glass transition temperature (Tg) of adhesive. TMA showed that TEPs lose permanent expansion above maximum expansion temperature due to burst and/or diffuse of gas through the thin shell. DIC analysis of materials revealed that CTE mismatch grows with the addition of TEPs in x and y directions. Increases in TEP content up to 15 wt.% also raised the maximum dimension change in the epoxy adhesive. DMA and TGA studies indicated no major change in storage modulus and weight loss when GFRP was heated up to 170°C. The contact angle of GFRP decreased substantially after plasma surface treatment. Plasma surface treatment provided higher bond strength at room temperature than sandblasting surface treatment and prevented fiber-tearing. Despite the incorporation of TEPs, the enhanced debonding effectiveness at 145°C was marginal (less than 5%) for the epoxy adhesive used in the study. The incorporation of TEPs generated the residual stresses inside the adhesive as confirmed by measuring the residual strength of SLJ samples, especially 10 wt.% TEPs-epoxy joints exhibited more than 20% strength drop. Submitted/Accepted version 2023-01-16T02:27:06Z 2023-01-16T02:27:06Z 2022 Journal Article Caglar, H., Sridhar, I., Sharma, M. & Chian, K. S. (2022). Debonding of bonded composite joints with TEP modified epoxy adhesives. Journal of Adhesion. https://dx.doi.org/10.1080/00218464.2022.2152333 0021-8464 https://hdl.handle.net/10356/164311 10.1080/00218464.2022.2152333 2-s2.0-85144160741 en Journal of Adhesion © 2022 Taylor & Francis Group, LLC. All rights reserved. This is an Accepted Manuscript of an article published by Taylor & Francis in Journal of Adhesion on 11 Dec 2022, available online: http://www.tandfonline.com/10.1080/00218464.2022.2152333. application/pdf |
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Engineering::Mechanical engineering Adhesive Joint Debonding Caglar, Hasan Sridhar, Idapalapati Sharma, Mohit Chian, Kerm Sin Debonding of bonded composite joints with TEP modified epoxy adhesives |
| description |
Prevention of mechanical and thermal damage to the composite parts is crucial during the debonding process of adhesive joints. This work highlights the impact of thermally expanded particles (TEPs) on bulk adhesive properties and the lap shear strength of adhesively bonded GFRP joints. FTIR studies revealed insignificant chemical changes occurring among the epoxy and its blend with TEPs. The addition of TEPs has slightly influenced the glass transition temperature (Tg) of adhesive. TMA showed that TEPs lose permanent expansion above maximum expansion temperature due to burst and/or diffuse of gas through the thin shell. DIC analysis of materials revealed that CTE mismatch grows with the addition of TEPs in x and y directions. Increases in TEP content up to 15 wt.% also raised the maximum dimension change in the epoxy adhesive. DMA and TGA studies indicated no major change in storage modulus and weight loss when GFRP was heated up to 170°C. The contact angle of GFRP decreased substantially after plasma surface treatment. Plasma surface treatment provided higher bond strength at room temperature than sandblasting surface treatment and prevented fiber-tearing. Despite the incorporation of TEPs, the enhanced debonding effectiveness at 145°C was marginal (less than 5%) for the epoxy adhesive used in the study. The incorporation of TEPs generated the residual stresses inside the adhesive as confirmed by measuring the residual strength of SLJ samples, especially 10 wt.% TEPs-epoxy joints exhibited more than 20% strength drop. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Caglar, Hasan Sridhar, Idapalapati Sharma, Mohit Chian, Kerm Sin |
| format |
Article |
| author |
Caglar, Hasan Sridhar, Idapalapati Sharma, Mohit Chian, Kerm Sin |
| author_sort |
Caglar, Hasan |
| title |
Debonding of bonded composite joints with TEP modified epoxy adhesives |
| title_short |
Debonding of bonded composite joints with TEP modified epoxy adhesives |
| title_full |
Debonding of bonded composite joints with TEP modified epoxy adhesives |
| title_fullStr |
Debonding of bonded composite joints with TEP modified epoxy adhesives |
| title_full_unstemmed |
Debonding of bonded composite joints with TEP modified epoxy adhesives |
| title_sort |
debonding of bonded composite joints with tep modified epoxy adhesives |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164311 |
| _version_ |
1756370595601186816 |