Bulletin of the Chinese Ceramic Society, Volume. 43, Issue 6, 1992(2024)
Characteristics of Interfacial Transition Zone in Manufactured Sand Mortar
[1] [1] REN Q, TAO Y X, JIAO D W, et al. Plastic viscosity of cement mortar with manufactured sand as influenced by geometric features and particle size[J]. Cement and Concrete Composites, 2021, 122: 104163.
[2] [2] HE H, WANG Y L, WANG J J. Effects of aggregate micro fines (AMF), aluminum sulfate and polypropylene fiber (PPF) on properties of machine-made sand concrete[J]. Applied Sciences, 2019, 9(11): 2250.
[3] [3] LI Y R, ZENG X H, ZHOU J L, et al. Development of an eco-friendly ultra-high performance concrete based on waste basalt powder for Sichuan-Tibet Railway[J]. Journal of Cleaner Production, 2021, 312: 127775.
[4] [4] FENG H, PAN L S, ZHENG Q, et al. Effects of molecular structure of polycarboxylate superplasticizers on their dispersion and adsorption behavior in cement paste with two kinds of stone powder[J]. Construction and Building Materials, 2018, 170: 182-192.
[5] [5] ARAGO F T S, PAZOS A R G, DA MOTTA L M G, et al. Effects of morphological characteristics of aggregate particles on the mechanical behavior of bituminous paving mixtures[J]. Construction and Building Materials, 2016, 123: 444-453.
[6] [6] DE ALMEIDA J, DELBONI H Jr, BENTO R, et al. Performance analysis of HRCTM HPGR in manufactured sand production[J]. Minerals, 2023, 13(2): 222.
[7] [7] LI Y, LIU Y Z, JIN C Y, et al. Multi-scale creep analysis of river sand and manufactured sand concrete considering the influence of ITZ[J]. Construction and Building Materials, 2022, 344: 128175.
[8] [8] FENG Y C, JIA X L, HUI Y X, et al. Influences of mother rock type and stone powder content on properties of mechanism sand concrete[J]. Bulletin of the Chinese Ceramic Society, 2023, 42(8): 2773-2780 (in Chinese).
[9] [9] MU J L, LI Y, LIN H, et al. Research on the effect of lithological characteristics of manufactured sand on the strength of mortar[J]. Journal of Building Engineering, 2023, 77: 107495.
[10] [10] YANG B Y, KAMALI-BERNARD S, BERNARD F. Microstructure, tensile strength and shear strength of aggregate-mortar interface: effect of aggregate mineralogy[J]. Construction and Building Materials, 2023, 388: 131721.
[11] [11] LUO F S, LI B, DU J P, et al. Effects of type and gradation of aggregate on wear resistance of road concrete[J]. Bulletin of the Chinese Ceramic Society, 2022, 41(6): 1963-1972+2006 (in Chinese).
[12] [12] SHEN W G, LIU Y, WANG Z W, et al. Influence of manufactured sand’s characteristics on its concrete performance[J]. Construction and Building Materials, 2018, 172: 574-583.
[13] [13] SHI H S, SUN D D, WU K. Development on microstructure and numerical simulation of interfacial transition zone[J]. Journal of the Chinese Ceramic Society, 2016, 44(5): 678-685 (in Chinese).
[14] [14] GAO X, WEI Y, HUANG W. Effect of individual phases on multiscale modeling mechanical properties of hardened cement paste[J]. Construction and Building Materials, 2017, 153: 25-35.
[15] [15] GAO Y, DE SCHUTTER G, YE G, et al. The ITZ microstructure, thickness and porosity in blended cementitious composite: effects of curing age, water to binder ratio and aggregate content[J]. Composites Part B: Engineering, 2014, 60: 1-13.
[16] [16] MAZARS J. A description of micro- and macroscale damage of concrete structures[J]. Engineering Fracture Mechanics, 1986, 25(5/6): 729-737.
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CHEN Hao, WANG Huaizhi, WANG Peng, XIAO Min, WU Juan, TANG Yanfeng, LI Fangxian, WEI Jiangxiong. Characteristics of Interfacial Transition Zone in Manufactured Sand Mortar[J]. Bulletin of the Chinese Ceramic Society, 2024, 43(6): 1992
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Received: Nov. 17, 2023
Accepted: --
Published Online: Aug. 28, 2024
The Author Email: Jiangxiong WEI (jxwei@scut.edu.cn)
CSTR:32186.14.