Bond behaviour of deformed steel rebars in steel fibre high- strength self-compacting concrete
Studies on the bond behaviour of deformed steel rebars in conventional concrete have been widely covered. however, the studies on the bond behaviour between deformed steel rebars and high-strength self- compacting concrete (HSSCC), particularly with the addition of steel fibers, are still very limit...
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my.ums.eprints.356582023-06-23T01:40:58Z https://eprints.ums.edu.my/id/eprint/35658/ Bond behaviour of deformed steel rebars in steel fibre high- strength self-compacting concrete Nelly Majain TA401-492 Materials of engineering and construction. Mechanics of materials Studies on the bond behaviour of deformed steel rebars in conventional concrete have been widely covered. however, the studies on the bond behaviour between deformed steel rebars and high-strength self- compacting concrete (HSSCC), particularly with the addition of steel fibers, are still very limited. Hence, in this research, an in-depth study was conducted to investigate the effects of steel fivers on the bond behaviour of deformed steel rebars embedded in steel fibre high-strength self-compacting concrete (SFHSSCC). Experimental works are carried out in two phases. Phase 1 involves the design of concrete mixes and the testing of fresh and mechanical properties of the normal vibrates concrete (NVC), HSSCC and SFHSSCC. The steel fibres used in SFHSSCC , Were the hooked-end type with 35 mm length and an aspect ratio of 63.6. The research works in Phase 2 involved the clirec.t pullout testing conducted according 10 the RlLEM RC6 Part 2 standard. A total of 72 pullout specimens with a dimension of 200 mm x 200 mm x 200 mm were prepared and tested at 30 ± 2 day . A few of FH specimens were tested at the 6 months of concrete age. The pullout specimens comprised high yieId deformed steel rebars of 12, 16 and 20 mm diameters. The pullout specimens ,were subjected 10 increasing axial pullout load. The test results in Phase l showed the proposed design mix of self-compacting. Concrete managed to achieve high compressive strength of 60-90 N/mm2. As compared to HSSCC, the concrete compressive strength of SFHSSCC had increased slightly but the splitting tensile strength had increased tremendously. The result showed that SFHSSCC with 1.0% of steel fibre volume fraction was the best mix that satisfy the self-compacting and harden concrete requirements and therefore was selected for further study in Phase 2. The test results of Phase 2 showed that the effect of steel fibres in increasing bond strength between rebar and the high-strength seIf-compacting concrete seen t0 be insignificant as the result of bond strength of rebars in HSSCC and SFHSSCC concrete Showed small difference only . However, the addition of steel fibre in SFHSSCC had improved the concrete ductility very significantly. At the age of 6 months the confinement energy of the the SFHSSCC improved substantially by about 80% as compared 10 the confinement energy at 30+_ 2days. Based on the stress-strain behaviour in concrete, it was observed that the SFHSSCC was able to expand significantly under large stresses with controllable stains which justifies that the presence of steel fibers had contributed to improved confinement effect to the extent that the SFHSSCC had the ability to provide high confinement energy and good ductility. Subsequently based on the pullout test results, two new bond strength equations are proposed 10 predict the bond strengths of deformed steel rebars embedded in HSSCC and SFHSSCC. Finally , it can be concluded that the presence of steel fibres in SFHSSCC could overcome the fragile failures in high-strength self-compacting concrete and significantly improves the concrete ductility, which delay the loss of bond between rebars and concrete. 2022-11 Thesis NonPeerReviewed text en https://eprints.ums.edu.my/id/eprint/35658/3/ABSTRACT.pdf text en https://eprints.ums.edu.my/id/eprint/35658/1/24%20PAGES.pdf text en https://eprints.ums.edu.my/id/eprint/35658/2/FULLTEXT.pdf Nelly Majain (2022) Bond behaviour of deformed steel rebars in steel fibre high- strength self-compacting concrete. Doctoral thesis, Universiti Teknologi Malaysia. |
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TA401-492 Materials of engineering and construction. Mechanics of materials Nelly Majain Bond behaviour of deformed steel rebars in steel fibre high- strength self-compacting concrete |
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Studies on the bond behaviour of deformed steel rebars in conventional concrete have been widely covered. however, the studies on the bond behaviour between deformed steel rebars and high-strength self- compacting concrete (HSSCC), particularly with the addition of steel fibers, are still very limited. Hence, in this research, an in-depth study was conducted to investigate the effects of steel fivers on the bond behaviour of deformed steel rebars embedded in steel fibre high-strength self-compacting concrete (SFHSSCC). Experimental works are carried out in two phases. Phase 1 involves the design of concrete mixes and the testing of fresh and mechanical properties of the normal vibrates concrete (NVC), HSSCC and SFHSSCC. The steel fibres used in SFHSSCC , Were the hooked-end type with 35 mm length and an aspect ratio of 63.6. The research works in Phase 2 involved the clirec.t pullout testing conducted according 10 the RlLEM RC6 Part 2 standard. A total of 72 pullout specimens with a dimension of 200 mm x 200 mm x 200 mm were prepared and tested at 30 ± 2 day . A few of FH specimens were tested at the 6 months of concrete age. The pullout specimens comprised high yieId deformed steel rebars of 12, 16 and 20 mm diameters. The pullout specimens ,were subjected 10 increasing axial pullout load. The test results in Phase l showed the proposed design mix of self-compacting. Concrete managed to achieve high compressive strength of 60-90 N/mm2. As compared to HSSCC, the concrete compressive strength of SFHSSCC had increased slightly but the splitting tensile strength had increased tremendously. The result showed that SFHSSCC with 1.0% of steel fibre volume fraction was the best mix that satisfy the self-compacting and harden concrete requirements and therefore was selected for further study in Phase 2. The test results of Phase 2 showed that the effect of steel fibres in increasing bond strength between rebar and the high-strength seIf-compacting concrete seen t0 be insignificant as the result of bond strength of rebars in HSSCC and SFHSSCC concrete Showed small difference only . However, the addition of steel fibre in SFHSSCC had improved the concrete ductility very significantly. At the age of 6 months the confinement energy of the the SFHSSCC improved substantially by about 80% as compared 10 the confinement energy at 30+_ 2days. Based on the stress-strain behaviour in concrete, it was observed that the SFHSSCC was able to expand significantly under large stresses with controllable stains which justifies that the presence of steel fibers had contributed to improved confinement effect to the extent that the SFHSSCC had the ability to provide high confinement energy and good ductility. Subsequently based on the pullout test results, two new bond strength equations are proposed 10 predict the bond strengths of deformed steel rebars embedded in HSSCC and SFHSSCC. Finally , it can be concluded that the presence of steel fibres in SFHSSCC could overcome the fragile failures in high-strength self-compacting concrete and significantly improves the concrete ductility, which delay the loss of bond between rebars and concrete. |
format |
Thesis |
author |
Nelly Majain |
author_facet |
Nelly Majain |
author_sort |
Nelly Majain |
title |
Bond behaviour of deformed steel rebars in steel fibre high- strength self-compacting concrete |
title_short |
Bond behaviour of deformed steel rebars in steel fibre high- strength self-compacting concrete |
title_full |
Bond behaviour of deformed steel rebars in steel fibre high- strength self-compacting concrete |
title_fullStr |
Bond behaviour of deformed steel rebars in steel fibre high- strength self-compacting concrete |
title_full_unstemmed |
Bond behaviour of deformed steel rebars in steel fibre high- strength self-compacting concrete |
title_sort |
bond behaviour of deformed steel rebars in steel fibre high- strength self-compacting concrete |
publishDate |
2022 |
url |
https://eprints.ums.edu.my/id/eprint/35658/3/ABSTRACT.pdf https://eprints.ums.edu.my/id/eprint/35658/1/24%20PAGES.pdf https://eprints.ums.edu.my/id/eprint/35658/2/FULLTEXT.pdf https://eprints.ums.edu.my/id/eprint/35658/ |
_version_ |
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