One way RC wall panels with openings strengthened with CFRP
The urgent need for an opening in the reinforced concrete (RC) walls after the construction for doors, windows and essential services causes local cracking around the opening which leads to decrease in load carrying capacity (LCC). Therefore, strengthening the vicinity of the opening is essential to...
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my.uniten.dspace-300892023-12-29T15:44:26Z One way RC wall panels with openings strengthened with CFRP Mohammed B.S. Ean L.W. Malek M.A. 57203590522 55324334700 55636320055 CFRP Load carrying capacity Opening Reinforced concrete wall Strengthening factor Stress concentration Ultimate load Carbon fiber reinforced plastics Carbon fibers Load limits Stress concentration Carbon fiber reinforced plastics Load limits Loads (forces) Stress concentration Carbon fiber reinforced polymer Cut-out Different sizes Empirical formulas Essential services Failure load Opening Reinforced concrete wall Stress concentration factors Ultimate loads Wall panels Carbon fiber reinforced polymer Different sizes Empirical formulas Essential services Opening Reinforced concrete wall Stress concentration factors Ultimate loads Reinforced concrete Reinforced concrete The urgent need for an opening in the reinforced concrete (RC) walls after the construction for doors, windows and essential services causes local cracking around the opening which leads to decrease in load carrying capacity (LCC). Therefore, strengthening the vicinity of the opening is essential to restore the loss in LCC of RC wall with cut-out opening. Sixteen of 1/3 scale RC walls with openings comprising four identical series of four specimens each were prepared and tested. Different sizes of openings were provided in the walls as percentage of total wall area: 5%, 10%, 20% and 30%. Series one and two designated as WO1-WO4 and WO1a-WO4a, respectively, are tested without Carbon Fiber Reinforced Polymer (CFRP), while series three and four designated as WO1b-WO4b and WO1c-WO4c, respectively, are tested with CFRP strengthened the vicinity of the openings with two different patterns. To resemble imperfections in constructions, the panels were subjected to a uniformly distributed axial load with an eccentricity of t/6. New constants have been incorporated in the empirical formula developed by Saheb and Desayi [1] to predict the ultimate load of one-way RC wall with opening strengthened by CFRP. In addition, this paper also reports the stress concentration factors around the openings and introduced a factor called strengthening factor to evaluate the increment in the LCC rate of RC wall with opening strengthened by CFRP. The results show that RC walls with openings strengthened by CFRP applied in 45� to the opening corners failed at load higher than failure load of their identical RC walls strengthened by CFRP applied along the opening. � 2012 Elsevier Ltd. All rights reserved. Final 2023-12-29T07:44:25Z 2023-12-29T07:44:25Z 2013 Article 10.1016/j.conbuildmat.2012.11.080 2-s2.0-84871776640 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84871776640&doi=10.1016%2fj.conbuildmat.2012.11.080&partnerID=40&md5=c192bdb760dc9fb7a2add39f652b6519 https://irepository.uniten.edu.my/handle/123456789/30089 40 575 583 Scopus |
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CFRP Load carrying capacity Opening Reinforced concrete wall Strengthening factor Stress concentration Ultimate load Carbon fiber reinforced plastics Carbon fibers Load limits Stress concentration Carbon fiber reinforced plastics Load limits Loads (forces) Stress concentration Carbon fiber reinforced polymer Cut-out Different sizes Empirical formulas Essential services Failure load Opening Reinforced concrete wall Stress concentration factors Ultimate loads Wall panels Carbon fiber reinforced polymer Different sizes Empirical formulas Essential services Opening Reinforced concrete wall Stress concentration factors Ultimate loads Reinforced concrete Reinforced concrete |
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CFRP Load carrying capacity Opening Reinforced concrete wall Strengthening factor Stress concentration Ultimate load Carbon fiber reinforced plastics Carbon fibers Load limits Stress concentration Carbon fiber reinforced plastics Load limits Loads (forces) Stress concentration Carbon fiber reinforced polymer Cut-out Different sizes Empirical formulas Essential services Failure load Opening Reinforced concrete wall Stress concentration factors Ultimate loads Wall panels Carbon fiber reinforced polymer Different sizes Empirical formulas Essential services Opening Reinforced concrete wall Stress concentration factors Ultimate loads Reinforced concrete Reinforced concrete Mohammed B.S. Ean L.W. Malek M.A. One way RC wall panels with openings strengthened with CFRP |
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The urgent need for an opening in the reinforced concrete (RC) walls after the construction for doors, windows and essential services causes local cracking around the opening which leads to decrease in load carrying capacity (LCC). Therefore, strengthening the vicinity of the opening is essential to restore the loss in LCC of RC wall with cut-out opening. Sixteen of 1/3 scale RC walls with openings comprising four identical series of four specimens each were prepared and tested. Different sizes of openings were provided in the walls as percentage of total wall area: 5%, 10%, 20% and 30%. Series one and two designated as WO1-WO4 and WO1a-WO4a, respectively, are tested without Carbon Fiber Reinforced Polymer (CFRP), while series three and four designated as WO1b-WO4b and WO1c-WO4c, respectively, are tested with CFRP strengthened the vicinity of the openings with two different patterns. To resemble imperfections in constructions, the panels were subjected to a uniformly distributed axial load with an eccentricity of t/6. New constants have been incorporated in the empirical formula developed by Saheb and Desayi [1] to predict the ultimate load of one-way RC wall with opening strengthened by CFRP. In addition, this paper also reports the stress concentration factors around the openings and introduced a factor called strengthening factor to evaluate the increment in the LCC rate of RC wall with opening strengthened by CFRP. The results show that RC walls with openings strengthened by CFRP applied in 45� to the opening corners failed at load higher than failure load of their identical RC walls strengthened by CFRP applied along the opening. � 2012 Elsevier Ltd. All rights reserved. |
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57203590522 |
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57203590522 Mohammed B.S. Ean L.W. Malek M.A. |
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Mohammed B.S. Ean L.W. Malek M.A. |
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Mohammed B.S. |
title |
One way RC wall panels with openings strengthened with CFRP |
title_short |
One way RC wall panels with openings strengthened with CFRP |
title_full |
One way RC wall panels with openings strengthened with CFRP |
title_fullStr |
One way RC wall panels with openings strengthened with CFRP |
title_full_unstemmed |
One way RC wall panels with openings strengthened with CFRP |
title_sort |
one way rc wall panels with openings strengthened with cfrp |
publishDate |
2023 |
_version_ |
1806428084500430848 |
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13.214268 |