Constant load effect on fracture of polymer concrete (PC) due to environment / Mohd Syaifullah Mohd Azali
The behavior of compact tension (CT) polymer concrete (PC) when exposed to air, water (pH=7) and sulfuric acid (pH=4) were investigated over a period of one and three weeks, respectively. In this study, CT specimen exposed to air will be considered as optimum condition. Also the effect of environmen...
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my.uitm.ir.783142023-11-06T04:52:50Z https://ir.uitm.edu.my/id/eprint/78314/ Constant load effect on fracture of polymer concrete (PC) due to environment / Mohd Syaifullah Mohd Azali Mohd Azali, Mohd Syaifullah The behavior of compact tension (CT) polymer concrete (PC) when exposed to air, water (pH=7) and sulfuric acid (pH=4) were investigated over a period of one and three weeks, respectively. In this study, CT specimen exposed to air will be considered as optimum condition. Also the effect of environment to PC on the fracture toughness was studied. The decrease in fracture toughness was dependent on the type, concentration and pH of the corrosive solutions. In water and sulfuric acid exposure, PC did show reduced the fracture toughness compared to optimum specimen. Water was the most corrosive media compared to others as it reduced about 15.71% of the fracture toughness. The reduced fracture toughness corresponded to the increasing in pH value. There was linear correlation between the fracture toughness and stiffness. The highest fracture toughness was air at 1.89MPaVm having stiffness 0.3875kN/mm while the lowest fracture toughness was three weeks immersed in water at 1.59MPaVm having stiffness 0.3000kN/mm. A fixture was fabricated to conduct constant load test at 90%, 80% and 70% of fracture toughness. PC immersed in sulfuric acid for a week and three weeks show increasing percentage of life time to failure due to fracture at all loading rate. For 80% of fracture toughness loading, there was slightly different in large decreasing percentage of life time to failure for PC immersed in a week (94.95%) compared to three weeks immersed in water (86.77%). The reduced of percentage life time corresponded to suddenly increase uptake of water for the first week immersed. From the observation, decreasing life time to failure due to fracture for PC in all condition had no correlation with increasing load conducted for constant load test. 2005 Thesis NonPeerReviewed text en https://ir.uitm.edu.my/id/eprint/78314/1/78314.PDF Constant load effect on fracture of polymer concrete (PC) due to environment / Mohd Syaifullah Mohd Azali. (2005) Degree thesis, thesis, Universiti Teknologi Mara (UiTM). |
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The behavior of compact tension (CT) polymer concrete (PC) when exposed to air, water (pH=7) and sulfuric acid (pH=4) were investigated over a period of one and three weeks, respectively. In this study, CT specimen exposed to air will be considered as optimum condition. Also the effect of environment to PC on the fracture toughness was studied. The decrease in fracture toughness was dependent on the type, concentration and pH of the corrosive solutions. In water and sulfuric acid exposure, PC did show reduced the fracture toughness compared to optimum specimen. Water was the most corrosive media compared to others as it reduced about 15.71% of the fracture toughness. The reduced fracture toughness corresponded to the increasing in pH value. There was linear correlation between the fracture toughness and stiffness. The highest fracture toughness was air at 1.89MPaVm having stiffness 0.3875kN/mm while the lowest fracture toughness was three weeks immersed in water at 1.59MPaVm having stiffness 0.3000kN/mm. A fixture was fabricated to conduct constant load test at 90%, 80% and 70% of fracture toughness. PC immersed in sulfuric acid for a week and three weeks show increasing percentage of life time to failure due to fracture at all loading rate. For 80% of fracture toughness loading, there was slightly different in large decreasing percentage of life time to failure for PC immersed in a week (94.95%) compared to three weeks immersed in water (86.77%). The reduced of percentage life time corresponded to suddenly increase uptake of water for the first week immersed. From the observation, decreasing life time to failure due to fracture for PC in all condition had no correlation with increasing load conducted for constant load test. |
| format |
Thesis |
| author |
Mohd Azali, Mohd Syaifullah |
| spellingShingle |
Mohd Azali, Mohd Syaifullah Constant load effect on fracture of polymer concrete (PC) due to environment / Mohd Syaifullah Mohd Azali |
| author_facet |
Mohd Azali, Mohd Syaifullah |
| author_sort |
Mohd Azali, Mohd Syaifullah |
| title |
Constant load effect on fracture of polymer concrete (PC) due to environment / Mohd Syaifullah Mohd Azali |
| title_short |
Constant load effect on fracture of polymer concrete (PC) due to environment / Mohd Syaifullah Mohd Azali |
| title_full |
Constant load effect on fracture of polymer concrete (PC) due to environment / Mohd Syaifullah Mohd Azali |
| title_fullStr |
Constant load effect on fracture of polymer concrete (PC) due to environment / Mohd Syaifullah Mohd Azali |
| title_full_unstemmed |
Constant load effect on fracture of polymer concrete (PC) due to environment / Mohd Syaifullah Mohd Azali |
| title_sort |
constant load effect on fracture of polymer concrete (pc) due to environment / mohd syaifullah mohd azali |
| publishDate |
2005 |
| url |
https://ir.uitm.edu.my/id/eprint/78314/1/78314.PDF https://ir.uitm.edu.my/id/eprint/78314/ |
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