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Matches in Ghent University Academic Bibliography for { <https://biblio.ugent.be/publication/01JFTZDHVSHHYHX86CJS3V4297> ?p ?o. }

• 01JFTZDHVSHHYHX86CJS3V4297 classification A1.
• 01JFTZDHVSHHYHX86CJS3V4297 date "2024".
• 01JFTZDHVSHHYHX86CJS3V4297 language "eng".
• 01JFTZDHVSHHYHX86CJS3V4297 type journalArticle.
• 01JFTZDHVSHHYHX86CJS3V4297 hasPart 01JFTZFSH34BAKH3S61T7ZKX4F.pdf.
• 01JFTZDHVSHHYHX86CJS3V4297 hasPart urn:uuid:6a416a27-24e2-4a87-a33b-a4ae190cfb60.
• 01JFTZDHVSHHYHX86CJS3V4297 subject "Chemistry".
• 01JFTZDHVSHHYHX86CJS3V4297 subject "Physics and Astronomy".
• 01JFTZDHVSHHYHX86CJS3V4297 subject "Technology and Engineering".
• 01JFTZDHVSHHYHX86CJS3V4297 doi "10.3390/polym16243561".
• 01JFTZDHVSHHYHX86CJS3V4297 issn "2073-4360".
• 01JFTZDHVSHHYHX86CJS3V4297 issue "24".
• 01JFTZDHVSHHYHX86CJS3V4297 volume "16".
• 01JFTZDHVSHHYHX86CJS3V4297 abstract "Epoxy resins have exhibited exceptional performance in engineering applications, particularly as a replacement for traditional mechanical joints in adhesive bonding. This study evaluates the suitability of two innovative adhesives, SikaPower (R)-1511 and SikaPower (R)-1548, in various graded configurations. The thermal curing behavior of the adhesives was analyzed using differential scanning calorimetry (DSC) and Fourier transform infrared spectroscopy (FTIR). Shear tests and finite element simulations were employed to investigate the strength performance and interfacial stress distribution of four adhesive configurations, including single and graded joints in single lap adhesive joints. The results show that SikaPower (R)-1548 reveals a slower heat-curing rate and achieves an average shear limit load of 9 MPa, outperforming the more rigid SikaPower (R)-1511, which reaches 4 MPa. Ultimate load predictions indicate that the shear strength of the 1511-1548-1511 graded configuration is slightly lower than that of SikaPower (R)-1511, with a decrease of 8.86%. In contrast, the 1548-1511-1548 configuration demonstrates a significant improvement, achieving a 32.20% increase in shear strength, along with a 13.12% reduction in peel stress field intensity at the interface end and a 12.21% reduction in shear stress field intensity. Overall, the experimental and simulation results highlight the significant advantages of graded joints over traditional single joints in alleviating stress concentrations and enhancing joint strength. Additionally, the research confirms the potential of epoxy resins in advanced engineering applications, providing a reliable theoretical foundation and technical guidance for the design of graded adhesives.".
• 01JFTZDHVSHHYHX86CJS3V4297 author 2223D1E4-F0EE-11E1-A9DE-61C894A0A6B4.
• 01JFTZDHVSHHYHX86CJS3V4297 author 42aca3cb-30b7-11ee-a164-f942f2e8de31.
• 01JFTZDHVSHHYHX86CJS3V4297 author urn:uuid:4357c7ef-6672-4430-a695-b2b050f0d68f.
• 01JFTZDHVSHHYHX86CJS3V4297 author urn:uuid:60dad51c-a881-4260-b71b-46dbc1fb5c8f.
• 01JFTZDHVSHHYHX86CJS3V4297 author urn:uuid:6a1b25ce-5e19-4935-a9c7-91a00fcdf234.
• 01JFTZDHVSHHYHX86CJS3V4297 dateCreated "2024-12-24T00:00:11Z".
• 01JFTZDHVSHHYHX86CJS3V4297 dateModified "2025-01-30T10:10:58Z".
• 01JFTZDHVSHHYHX86CJS3V4297 name "Evaluation and characterization of functionally graded adhesive joints : experimental and numerical analyses".
• 01JFTZDHVSHHYHX86CJS3V4297 pagination urn:uuid:a2af3eae-e4ee-451f-b363-fef5e9249943.
• 01JFTZDHVSHHYHX86CJS3V4297 sameAs LU-01JFTZDHVSHHYHX86CJS3V4297.
• 01JFTZDHVSHHYHX86CJS3V4297 sourceOrganization urn:uuid:9a26098c-83ae-43eb-94ac-1692a7db3194.
• 01JFTZDHVSHHYHX86CJS3V4297 type A1.