Mohd Ali, Ahmad Zurisman and Sanjayan, Jay and Guerrieri, Maurice (2017) Performance of geopolymer high strength concrete wall panels and cylinders when exposed to a hydrocarbon fire. Construction and Building Materials, 137 (NIL). pp. 195-207. ISSN 0950-0618
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Abstract
This study presents an investigation of the effect of hydrocarbon fire exposure on the residual compres- sive strength properties of geopolymer concrete panels and cylinders. Gladstone flyash was utilized as the binder whilst the alkaline solution/fly-ash ratio and sodium silicate to sodium hydroxide (Na2SiO3/ NaOH) ratio was 0.4 and 2.5 respectively. The compressive strength at the test date was 64 MPa. Two dif- ferent cylindrical specimens’ sizes (150 and 100 mm diameter 300 and 200 mm high) were exposed on all sides to the hydrocarbon fire scenario for 120 min whilst panels of 1075 1075 200 mm were exposed on one side for the same time duration. Results showed that no significant spalling occurred in any of the specimens and the mass loss during heating was between 2.70 and 4.65% respectively which was attributed due to moisture loss. Low differential gradients and thermal incompatibility between the geopolymer paste and aggregates provides geopolymer concrete with superior spalling resistance than Ordinary Portland cement concrete. Residual compressive strength testing showed that the panels main- tained approximately 60% of their initial compressive strength indicating that geopolymer concrete spec- imens can maintain sufficient load bearing capacity in the event of fire exposure. The residual strength profiles indicated that specimen size effect was also exhibited with the remaining strength of the cylin- ders being approximately 10 and 20% for the 100 mm and 150 mm dimeter specimens respectively. The dull red color exhibited in all specimens after fire testing indicated the presence of high iron content in the geopolymer matrix. Insitu temperature analysis showed that the geopolymer concrete had excellent heat resistance capabilities with temperatures at a depth of 100 mm from the exposed surface ranging between 39 C and 45 C after 30 min of fire exposure even though the temperature at exposed surface exceeds 1000 C. This is reinforced by the fact that the geopolymer has a high heat storage capacity as indicated by the geopolymers lower thermal diffusivity than OPC concrete.
Item Type: | Article |
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Uncontrolled Keywords: | Compressive strength; Concrete; Differential thermal gradient; Fire; Geopolymer; Residual strength; Spalling; Thermal diffusivity; Thermal incompatibility |
Subjects: | T Technology > TP Chemical technology > TP1080-1185 Polymers and polymer manufacture |
Divisions: | Faculty of Civil Engineering and Built Environment > Department of Civil Engineering : Structural and Materials Engineering |
Depositing User: | Miss Nur Rasyidah Rosli |
Date Deposited: | 23 Jan 2022 01:58 |
Last Modified: | 23 Jan 2022 01:58 |
URI: | http://eprints.uthm.edu.my/id/eprint/5713 |
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