Analysis of crack propagation in an adhesive joint / M.D. Mohan Gift, J. Selvakumar, S. John Alexis

Adhesive joints are widely used in industries because they have several advantages when compared to welded and riveted joints. One of the important factors is that they distribute the load and stresses uniformly over the entire bonded area providing good vibration resistance. Adhesive joints can rea...

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Main Authors: M.D., Mohan Gift, J., Selvakumar, S., John Alexis
Format: Article
Language:English
Published: Faculty of Mechanical Engineering and UiTMPress 2016
Subjects:
Online Access:http://ir.uitm.edu.my/id/eprint/16140/
http://ir.uitm.edu.my/id/eprint/16140/1/AJ_M.D.%20MOHAN%20GIFT%20JME%2016.pdf
id uitm-16140
recordtype eprints
spelling uitm-161402017-02-17T05:00:45Z http://ir.uitm.edu.my/id/eprint/16140/ Analysis of crack propagation in an adhesive joint / M.D. Mohan Gift, J. Selvakumar, S. John Alexis M.D., Mohan Gift J., Selvakumar S., John Alexis Structural engineering Adhesive joints are widely used in industries because they have several advantages when compared to welded and riveted joints. One of the important factors is that they distribute the load and stresses uniformly over the entire bonded area providing good vibration resistance. Adhesive joints can readily bond dissimilar materials. The prediction of crack propagation validating the adhesive joint durability and toughness is a significant point which is addressed through various experimental methodologies based on the type of loading conditions. The analysis is hindered by the unpredictable substrate and adhesive behavior due to the loading conditions, the nature of crack propagation, and the geometry. The impact of hardener resin ratio alteration is a parameter which needs to be explored in validating the joint toughness. The Double Cantilever Beam tests which are used for analyzing the fracture toughness for mode-1 loading in adhesive joints focus on adhesive thickness variation extensively. The alteration of composition and its role in influencing the crack propagation is explored in a limited perspective. An attempt is made in this work to analyse the adhesive composition variation and its impact on the joint toughness with the help of a DCB test involving three specimens incorporating variations in the hardener resin composition. The analytical and the experimental results provided significant insights on the adhesive joint toughness validation. Faculty of Mechanical Engineering and UiTMPress 2016 Article PeerReviewed text en http://ir.uitm.edu.my/id/eprint/16140/1/AJ_M.D.%20MOHAN%20GIFT%20JME%2016.pdf M.D., Mohan Gift and J., Selvakumar and S., John Alexis (2016) Analysis of crack propagation in an adhesive joint / M.D. Mohan Gift, J. Selvakumar, S. John Alexis. Journal of Mechanical Engineering, 13 (1). pp. 2-12. ISSN 1823-5514
repository_type Digital Repository
institution_category Local University
institution Universiti Teknologi MARA
building UiTM Institutional Repository
collection Online Access
language English
topic Structural engineering
spellingShingle Structural engineering
M.D., Mohan Gift
J., Selvakumar
S., John Alexis
Analysis of crack propagation in an adhesive joint / M.D. Mohan Gift, J. Selvakumar, S. John Alexis
description Adhesive joints are widely used in industries because they have several advantages when compared to welded and riveted joints. One of the important factors is that they distribute the load and stresses uniformly over the entire bonded area providing good vibration resistance. Adhesive joints can readily bond dissimilar materials. The prediction of crack propagation validating the adhesive joint durability and toughness is a significant point which is addressed through various experimental methodologies based on the type of loading conditions. The analysis is hindered by the unpredictable substrate and adhesive behavior due to the loading conditions, the nature of crack propagation, and the geometry. The impact of hardener resin ratio alteration is a parameter which needs to be explored in validating the joint toughness. The Double Cantilever Beam tests which are used for analyzing the fracture toughness for mode-1 loading in adhesive joints focus on adhesive thickness variation extensively. The alteration of composition and its role in influencing the crack propagation is explored in a limited perspective. An attempt is made in this work to analyse the adhesive composition variation and its impact on the joint toughness with the help of a DCB test involving three specimens incorporating variations in the hardener resin composition. The analytical and the experimental results provided significant insights on the adhesive joint toughness validation.
format Article
author M.D., Mohan Gift
J., Selvakumar
S., John Alexis
author_facet M.D., Mohan Gift
J., Selvakumar
S., John Alexis
author_sort M.D., Mohan Gift
title Analysis of crack propagation in an adhesive joint / M.D. Mohan Gift, J. Selvakumar, S. John Alexis
title_short Analysis of crack propagation in an adhesive joint / M.D. Mohan Gift, J. Selvakumar, S. John Alexis
title_full Analysis of crack propagation in an adhesive joint / M.D. Mohan Gift, J. Selvakumar, S. John Alexis
title_fullStr Analysis of crack propagation in an adhesive joint / M.D. Mohan Gift, J. Selvakumar, S. John Alexis
title_full_unstemmed Analysis of crack propagation in an adhesive joint / M.D. Mohan Gift, J. Selvakumar, S. John Alexis
title_sort analysis of crack propagation in an adhesive joint / m.d. mohan gift, j. selvakumar, s. john alexis
publisher Faculty of Mechanical Engineering and UiTMPress
publishDate 2016
url http://ir.uitm.edu.my/id/eprint/16140/
http://ir.uitm.edu.my/id/eprint/16140/1/AJ_M.D.%20MOHAN%20GIFT%20JME%2016.pdf
first_indexed 2023-09-18T22:55:24Z
last_indexed 2023-09-18T22:55:24Z
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