An improvement on the concrete exothermic models considering self-temperature duration |
Zhu, Zhenyang
(State Key Laboratory of Simulation and Regulation of Water Cycle in River Basin, China Institute of Water Resources and Hydropower Research)
Chen, Weimin (Hydrochina Huadong Engineering Corporation) Qiang, Sheng (College of Water Conservancy and Hydropower Engineering, Hohai University) Zhang, Guoxin (State Key Laboratory of Simulation and Regulation of Water Cycle in River Basin, China Institute of Water Resources and Hydropower Research) Liu, Youzhi (State Key Laboratory of Simulation and Regulation of Water Cycle in River Basin, China Institute of Water Resources and Hydropower Research) |
1 | Cervera, M., Faria, J., Oliver, J. and Prato, T. (2002), "Numerical modeling of concrete curing regarding hydration and temperature phenomena", Comput. Struct., 80(18), 1511-1521. DOI |
2 | Emborg, M. (1989), "Thermal stresses in concrete structures at early ages", Ph.D. Dissertation, Lulea University of Technology, Lulea, Sweden. |
3 | Guan, Z. and Lu, J.Y. (2012), Fundamentals of Numerical Analysis, Higher Education Press, Beijing, China. |
4 | Guo, Y.C., Wang, X. and Qian, J.S. (2015), "Physical model of drying shrinkage of recycled aggregate concrete", J. Wuhan Univ. Technol.-Mater. Sci. Ed., 30(6), 1260-1267. DOI |
5 | Hatte, J.H. and Thorborg, J. (2003), "A numerical model for predicting the thermomechanical conditions during hydration of early-age concrete", Appl. Math. Mod., 27(1), 1-26. DOI |
6 | Kim, S.J., Yang, K.H. and Lee, K.H. (2016), "Mechanical properties and adiabatic temperature rise of low heat concrete using ternary blended cement", Comput. Concrete, 17(2), 271-280. DOI |
7 | Li, B., Mao, J.Z., Lv, J.F. and Zhou, L.M. (2016), "Effects of micropore structure on hydration degree and mechanical properties of concrete in later curing age", Eur. J. Environ. Civil Eng., 20(5), 544-599. DOI |
8 | Liu, M.Z., Qiang, S. and Zhu, Z.Y. (2011), "Study on crack mechanism for concrete bedding cushion on rock", Adv. Mater. Res., 163, 1291-1295. |
9 | Luo, M., Qian, C.X., Li, R. and Rong, H. (2015), "Efficiency of concrete crack-healing based on biological carbonate precipitation", J. Wuhan Univ. Technol.-Mater. Sci. Ed., 30(6), 1255-1259. DOI |
10 | Park, K.B., Kwon, S.J. and Wang, X.Y. (2015), "Analysis of the effects of rice husk ash on the hydration of cementitious materials", Constr. Build. Mater., 105, 196-205. |
11 | Schutter, G.D. (2002), "Finite element simulation of thermal cracking in massive hardening concrete elements using degree of hydration based material laws", Comput. Struct., 80(27), 2035-2042. DOI |
12 | Suzuki, Y., Harada, S., Maekawa, K. and Tsuji, Y. (1988), "Evaluation of adiabatic temperature rise of concrete measured with the new testing apparatus", Doboku Gakkai Rombun H120 Okokushu, 9, 109-117. |
13 | Zhu, B.F. (2003), "A new computing model for the adiabatic temperature rise of concrete and the method of back analysis", Wat. Pow., 4, 29-32 . |
14 | Wang, J.C. and Yan, P.Y. (2013), "Evaluation of early age mechanical properties of concrete in real structure", Comput. Concrete, 12(1), 53-64. DOI |
15 | Zhang, Z.M., Feng, S.R., Shi, Q.C. and Wang, J. (2004), "Adiabatic temperature rise of concrete based on equivalent time", J. Hohai Univ. (Natur. Sci.), 32(5), 573-577. |
16 | Zhang, Z.M., Zhou, H.J. and Zhao, J.K. (2004), "Influences of temperature on strength of concrete", J. Hohai Univ. (Natur. Sci.), 32(6), 674-679. |
17 | Zhu, B.F. (1999), Thermal Stresses and Temperature Control of Mass Concrete, China Electric Power Press, Beijing, China. |
18 | Zhu, B.F. (2003), "A method for computing the adiabatic temperature rise of concrete considering the effect of the temperature of concrete", J. Hydroelectr. Eng., 20(2), 69-73. |
19 | Zhu, Z.Y., Qiang, S. and Chen, W.M. (2013), "A new method solving the temperature field of concrete around cooling pipes", Comput. Concrete, 11(5), 441-462. DOI |
20 | Zhu, Z.Y., Qiang, S. and Chen, W.M. (2014), "A model for temperature influence on concrete hydration exothermic rate (Part one: Theory and experiment)", J. Wuhan Univ. Technol.-Mater. Sci. Ed., 29(3), 540-545. DOI |
21 | Zhu, Z.Y., Qiang, S., Liu, M.Z. and Wang, H.B. (2011), "Cracking mechanism of long concrete bedding cushion and prevention method", Adv. Mater. Res., 163, 880-887. |