Experimental Investigation on Post-Fire Performances of Fly Ash Concrete Filled Hollow Steel Column |
Nurizaty, Z.
(School of Civil Engineering, Faculty of Engineering, University Teknologi Malaysia)
Mariyana, A.A.K (School of Civil Engineering, Faculty of Engineering, University Teknologi Malaysia) Shek, P.N. (School of Civil Engineering, Faculty of Engineering, University Teknologi Malaysia) Najmi, A.M. Mohd (School of Civil Engineering, Faculty of Engineering, University Teknologi Malaysia) Adebayo, Mujedu K. (School of Civil Engineering, Faculty of Engineering, University Teknologi Malaysia) Sif, Mohamed Tohami M.A (School of Civil Engineering, Faculty of Engineering, University Teknologi Malaysia) Putra Jaya, Ramadhansyah (Department of Civil Engineering, College of Engineering, Universiti Malaysia Pahang) |
1 | Kondraivendhan, B. and Bhattacharjee, B. (2015) 'Flow behavior and strength for fly ash blended cement paste and mortar', International Journal of Sustainable Built Environment. The Gulf Organisation for Research and Development, 4(2), 270-277. DOI |
2 | Le, Q. (2016) 'A study of temperature gradient effects on mechanical properties of concrete at elevated temperatures', 130. |
3 | Mehta, A. and Siddique, R. (2017) 'Properties of low-calcium fly ash based geopolymer concrete incorporating OPC as partial replacement of fly ash', Construction and Building Materials. Elsevier Ltd, 150, 792-807. DOI |
4 | Papadakis, V. G. (1999) 'Effect of fly ash on Portland cement systems', Cement and Concrete Research, 29, 1727-1736. DOI |
5 | Sarker, P. K., Kelly, S. and Yao, Z. (2014) 'Effect of fire exposure on cracking, spalling and residual strength of fly ash geopolymer concrete', Materials and Design. Elsevier Ltd, 63, 584-592. DOI |
6 | Shekastehband, B., Taromi, A. and Abedi, K. (2017) 'Fire performance of stiffened concrete filled double skin steel tubular columns', Fire Safety Journal, 88(2017), 13-25. DOI |
7 | Tao, Z., Cao, Y. F., Pan, Z. and Hassan, M. K. (2018) 'Compressive behaviour of geopolymer concrete-filled steel columns at ambient and elevated temperatures', International Journal of High-Rise Buildings, 7(4), 327-342. |
8 | Tao, Z., Hassan, M. K., Song, T. Y. and Han, L. H. (2017) 'Experimental study on blind bolted connections to concrete-filled stainless steel columns', Journal of Constructional Steel Research. Elsevier Ltd, 128, 825-838. DOI |
9 | Wan, C. Y., Zha, X. X. and Dassekpo, J. B. M. (2017) 'Analysis of axially loaded concrete filled circular hollow double steel tubular columns exposed to fire', Fire Safety Journal. Elsevier, 88(2017), 1-12. DOI |
10 | Yang, H., Liu, F. and Gardner, L. (2015) 'Post-fire behaviour of slender reinforced concrete columns confined by circular steel tubes', Thin-Walled Structures. Elsevier, 87, 12-29. DOI |
11 | Earle, R. and Scheetz, B. E. (1998) 'Utilization of fly ash', Current Opinion in Solid State & Material Science, 3, 510-520. DOI |
12 | Abdulkareem, O. A., Mustafa Al Bakri, A. M., Kamarudin, H., Khairul Nizar, I. and Saif, A. A. (2014) 'Effects of elevated temperatures on the thermal behavior and mechanical performance of fly ash geopolymer paste, mortar and lightweight concrete', Construction and Building Materials. Elsevier Ltd, 50, 377-387. DOI |
13 | Ahmaruzzaman, M. (2010) 'A review on the utilization of fly ash', Progress in Energy and Combustion Science. Elsevier Ltd, 36(3), 327-363. DOI |
14 | Sangeetha, P., M, A. M. R., Dachina, G., Dhivya, M. and Janani, S. (2018) 'Behaviour of Concrete Filled Steel Tubes', 10(Ncfm 2017), 297-304. |
15 | Arivalagan, S. and Kandasamy, S. (2010) 'Study on Concrete-Filled Steel Member Subjected to Cyclic Loading Ac: Cross-sectional area of concrete As: Cross-sectional area of steel B: External breath of the section D: External depth of the section t: Thickness of steel section f ck: Character', INTERNATIONAL JOURNAL OF CIVIL AND STRUCTURAL ENGINEERING, 1(3). |
16 | Du, Y., Chen, Z., Richard Liew, J. Y. and Xiong, M. X. (2017) 'Rectangular concrete-filled steel tubular beam-columns using high-strength steel: Experiments and design', Journal of Constructional Steel Research. Elsevier Ltd, 131, 1-18. DOI |
17 | Fan, F., Liu, Z., Xu, G., Peng, H. and Cai, C. S. (2018) 'Mechanical and thermal properties of fly ash based geopolymers', Construction and Building Materials. Elsevier Ltd, 160, 66-81. DOI |
18 | Han, S., Chen, Y. and Xie, W. (2017) 'Behaviour of square hollow steel tubular (SHST) stub columns after elevated temperature', Journal of Constructional Steel Research. Elsevier, 136(December 2016), 177-192. DOI |
19 | Hertz, K. D. (2005) 'Concrete strength for fire safety design', Magazine of Concrete Research, 57(8), 445-453. DOI |
20 | Ibrahim, R. K., Hamid, R. and Taha, M. R. (2012) 'Fire resistance of high-volume fly ash mortars with nanosilica addition', Construction and Building Materials. Elsevier Ltd, 36, 779-786. DOI |
21 | Saha, A. K. (2018) 'Effect of class F fly ash on the durability properties of concrete', Sustainable Environment Research. Elsevier Ltd, 28(1), 25-31. DOI |
22 | Hardjito, D., Wallah, S. E., Sumajouw, D. M. J. and Rangan, B. V. (2004) 'On the development of fly ash-based geopolymer concrete', ACI Materials Journal, 101(6), 467-472. |
23 | Jiang, P., Jiang, L., Zha, J. and Song, Z. (2017) 'Influence of temperature history on chloride diffusion in high volume fly ash concrete', Construction and Building Materials. Elsevier Ltd, 144, 677-685. DOI |
24 | Lie, T. T. and Chabot, M. (1992) 'Experimental Studies on the Fire Resistance of Hollow Steel Columns Filled with Plain Concrete', National Research Council Canada, 611. |
25 | Sarker, P. K. and McBeath, S. (2015) 'Fire endurance of steel reinforced fly ash geopolymer concrete elements', Construction and Building Materials. Elsevier Ltd, 90, 91-98. DOI |
26 | Wang, W., Lu, C., Li, Y. and Li, Q. (2017) 'An investigation on thermal conductivity of fly ash concrete after elevated temperature exposure', Construction and Building Materials. Elsevier Ltd, 148, 148-154. DOI |
27 | Han, L. H., Li, W. and Bjorhovde, R. (2014) 'Developments and advanced applications of concrete-filled steel tubular (CFST) structures: Members', Journal of Constructional Steel Research. Elsevier Ltd, 100, 211-228. DOI |
28 | Chindaprasirt, P. and Rukzon, S. (2008) 'Strength, porosity and corrosion resistance of ternary blend Portland cement, rice husk ash and fly ash mortar', Construction and Building Materials, 22(8), 1601-1606. DOI |