[2] REGOURD M,THOMASSIN J H,BAILLIF P,et al. Blast-furnace slag hydration. Surface analysis [J]. Cement and Concrete Research,1983,13(4):549-556.
[3] 张雄,鲁辉,张永娟,等. 矿渣活性激发方式的研究进展[J]. 西安建筑科技大学学报(自然科学版),2011,43(3):379-384.
[4] SAJEDI F, RAZAK H A. Comparison of different methods for activation of ordinary Portland cement-slag mortars [J]. Construction and Building Materials,2011,25(1):30-38.
[5] Lü X S, QIN Y,LIANG H, et al. Effects of modifying agent on rheology and workability of alkali-activated slag paste for 3D extrusion forming [J]. Construction and Building Materials,2021,302:124062:1-11.
[6] 陶俊,唐建辉,李平,等.温度和激发剂浓度对碱激发矿渣净浆流变特性的影响[J]. 硅酸盐通报,2021,40(10):3442-3449.
[7] MA M T,MEHDIZADEH H,GUO M Z,et al. Effect of direct carbonation routes of basic oxygen furnace slag (BOFS) on strength and hydration of blended cement paste [J]. Construction and Building Materials,2021,304:124628:1-10.
[8] 贺行洋,张晨,苏英,等.大掺量矿渣-水泥复合胶凝材料体系的性能研究[J]. 混凝土,2019(9):83-87.
[9] LI Z J,WEI X S,LI W L. Preliminary interpretation of Portland cement hydration process using resistivity measurements[J]. ACI Materials Journal,2003,100(3):253-257.
[10] 蒋兴教,肖莲珍. 无电极电阻率法研究水泥基复合材料的导电机理[J]. 武汉工程大学学报,2020,42(6):637-641.
[11] ZHU X H, ZHANG Z L,YANG K,et al. Characteri-sation of pore structure development of alkali-activated slag cement during early hydration using electrical responses [J]. Cement and Concrete Composites,2018,89:139-149.
[12] YOUSUF F,WEI X S. Investigation of the early-age microstructural development of hydrating cement pastes through electrical resistivity measurements [J]. Case Studies in Construction Materials, 2020,13:e00391:1-16.
[13] XIAO L Z, WEI X S,WANG S N. Alternating current method to determine chloride diffusion coefficient of hardened paste and concrete [J]. Magazine of Concrete Research,2015,67(1):27-32.
[14] 魏小胜,肖莲珍.用电阻率法确定混凝土结构形成的发展阶段及结构形成动力学参数[J]. 硅酸盐学报,2013,41(2):171-179.
[15] WEI X S, XIAO L Z. Kinetics parameters of cement hydration by electrical resistivity measurement and calorimetry [J]. Advances in Cement Research,2014,26(4):187-193.
[16] XIAO L Z. Interpretation of hydration process of concrete based on electrical resistivity measurement [D]. Hong Kong:Hong Kong University of Science and Technology,2007.
[17] TAO J Y,WEI X S. Effect of ground granulated blast-furnace slag on the hydration and properties of cement paste [J]. Advances in Cement Research,2019,31(6):251-260.
[18] 厉超. 矿渣、高/低钙粉煤灰玻璃体及其水化特性研究[D].北京:清华大学,2011.