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【導(dǎo)讀】Concrete;Pull-out;Bondstrength;specimens.[1].

  

【正文】 rties of Homra pozzolanic cement pastes Cement and Concrete Research, 30 (2020), pp. 1835–1839 [8]Y. Xu, . Wong, . Poon, M. Anson Impact of high temperature on PFA concrete Cement and Concrete Research, 31 (2020), pp. 1065–1073 [9]. Chan, . Peng, M. Anson Fire behaviour of high performance concrete made with silica fume at various moisture contents ACI Materials Journal, 96 (1999), pp. 405–409 [10]. Poon, . Shui, L. Lam Compressive behaviour of fibre reinforced highperformance concrete subjected to elevated temperatures Cement and Concrete Research, 34 (2020), pp. 2215–2222 [11]S. Ayd?n, B. Baradan Effect of pumice and fly ash incorporation on high temperature resistance of cementbased mortars Cement and Concrete Research, 37 (6) (2020), pp. 988–995 [12]. Khoury Effect of fire on concrete and concrete structures Progress in Structural Engineering Materials, 2 (2020), pp. 429–447 [13]. Chan, X. Luo, W. Sun Compressive strength and pore structure of highperformance concrete after exposure to high temperature up to 800 176。C Cement and Concrete Research, 30 (2020), pp. 247–251 [14]M. ElHawary, . Hamoush Bond shear modulus of reinforced concrete at high temperatures Engineering Fracture Mechanics, 55 (1996), pp. 991–999 [15]U. Diederichs, U. Schneider Bond strength at high temperatures Magazine of Concrete Research, 33 (115) (1981), pp. 75–84 [16]A. Katz, N. Berman Modeling the effect of high temperature on the bond of FRP reinforcing bars to concrete Cement and Concrete Composites, 22 (2020), pp. 433–443 [17]. Chiang, . Tsai, . Kan Acoustic inspection of bond strength of steelreinforced mortar after exposure to elevated temperatures Ultrasonics, 38 (2020), pp. 534–536 [18]. Chiang, . Tsai Timetemperature analysis of bond strength of a rebar after fire exposure Cement and Concrete Research, 33 (2020), pp. 1651–1654 [19]A. Abbasi, . Hogg Temperature and environmental effects on glass fiber rebar: modulus, strength and interfacial bond strength with concrete Composites: Part B, 36 (2020), pp. 394–404 [20]. Haddad, . Shannis Postfire behavior of bond between high strength pozzolanic concrete and reinforcing steel Construction and Building Materials, 18 (2020), pp. 425–435 [21]. Haddad, . AlSaleh, . AlAkhras Effect of elevated temperature on bond between steel reinforcement and fiber reinforced concrete Fire Safety Journal, 43 (5) (2020), pp. 334–343 [22]X. Luo, W. Sun, . Chan Effect of heating and cooling regimes on residual strength and microstructure of normal strength and highperformance concrete Cement and Concrete Research, 30 (2020), pp. 379–383 [23]. Peng, . Bian, . Guo, J. Zhao, . Peng, . Jiang Effect of thermal shock due to rapid cooling on residual mechanical properties of fiber concrete exposed to high temperatures Construction and Building Materials, 22 (2020), pp. 948–955 [24]. Chan, X. Luo, W. Sun Effect of high temperature and cooling regimes on the pressive strength and pore properties of high performance concrete Construction and Building Materials, 14 (2020), pp. 261–266 [25]. Bing246。l, R. G252。l Effect of elevated temperatures and cooling regimes on normal strength concrete Fire and Materials Journal, 33 (2020), pp. 79–88 [26]X. Fu, . Chung Improving the bond strength between steel rebar and concrete by increasing the water/cement ratio Cement and Concrete Research, 27 (12) (1997), pp. 1805–1809 [27]U. Ersoy Reinforced Concrete. Evrim Yay?nevi (third ed.) (1985) (In Turkish)
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