| [1] | 李庆玲, 史才军, 何富强, 等. 水泥基材料中自由氯离子浓缩的影
|
| [2] | 响因素[J]. 硅酸盐学报. 2013, 41(3): 320–327
|
| [3] | LI Qingling, SHI Caijun, HE Fuqiang, et al. J Chin Ceram Soc, 2013,
|
| [4] | 41(3): 320–327.
|
| [5] | 罗睿, 张晓萌, 黄晓明. 钢筋混凝土氯离子压滤实验方法研究[J].
|
| [6] | 公路交通科技. 2002, 19(2): 21–24.
|
| [7] | LUO Rui, ZHANG Xiaomeng, HUANG Xiaoming. J Highw Transp
|
| [8] | Res Dev (in Chinese), 2002, 19(2): 21–24.
|
| [9] | 学, 2010.
|
| [10] | HE Fuqiang. Measurement of chloride migration in cement-based
|
| [11] | materials using AgNO3 colorimetric method (in Chinese, dissertation).
|
| [12] | Changsha: Central South University, 2010.
|
| [13] | ELAKNESWARAN Y, NAWA T, KURUMISAWA K. Influence of
|
| [14] | surface charge on ingress of chloride ion in hardened pastes[J]. Mater
|
| [15] | Struct, 2009, 42(1): 83–93.
|
| [16] | 余红发, 翁智财, 孙伟, 等. 矿渣掺量对混凝土氯离子结合能力的
|
| [17] | 影响[J]. 硅酸盐学报, 2007, 35(6): 801-806.
|
| [18] | YU Hongfa, WENG Zhicai, SUN Wei, et al. J Chin Ceram Soc (in
|
| [19] | Chinese), 2007, 35(6): 801–806.
|
| [20] | WIENS U, BREIT W. SCHIESSLl P. Influence of high silica fume
|
| [21] | and high fly ash contents on alkalinity of pore solution and protectionof steel against corrosion [C]//Proceedings of Fifth International
|
| [22] | Conference on the Use of Fly Ash, Silica Fume, Slag and Natural
|
| [23] | Pozzolan in Concrete, SP-153, American Concrete Institute, 1995, 2:
|
| [24] | 741–762.
|
| [25] | 王小刚, 史才军, 何富强, 等. 氯离子结合及其对水泥基材料微观
|
| [26] | 结构的影响[J]. 硅酸盐学报, 2013, 41(2): 187?198.
|
| [27] | WANG Xiaogang, SHI Caijun, HE Fuqiang, et al. J Chin Ceram Soc,
|
| [28] | 2013, 41(2): 187?198.
|
| [29] | 罗睿, 蔡跃波, 王昌义. 磨细矿渣净浆和砂浆结合外渗氯离子的性
|
| [30] | 能[J]. 建筑材料学报, 2001, 4(2): 148–153.
|
| [31] | LUO Rui, CAI Yuebo, WANG Changyi. J Build Mater (in Chinese),
|
| [32] | 2001, 4(2): 148–153.
|
| [33] | 商博明. 粉煤灰结构及粉煤灰胶凝材料水化的微观研究[D]. 西安:
|
| [34] | 西安建筑科技大学, 2006.
|
| [35] | SHANG Boming. Microstructure of fly ash and hydration of
|
| [36] | cementitious material with fly ash(in Chinese, dissertation). Xi'an:
|
| [37] | Xi'an University of Architecture and Technology, 2006.
|
| [38] | 施惠生, 方泽锋. 粉煤灰对水泥浆体早期水化和孔结构的影响[J].
|
| [39] | 硅酸盐学报, 2004, 32(1): 95–98.
|
| [40] | SHI Huishen, FANG Zefeng. J Chin Ceram Soc, 2004, 32(1): 95–98.
|
| [41] | POON C S, QIAO X C, LIN Z S. Pozzolanic properties of reject fly
|
| [42] | ash in blended cement pastes[J]. Cem Concr Res, 2003, 33(11):
|
| [43] | Interaction of chloride and C-S-H[J]. Cem Concr Res, 1990, 20(6):
|
| [44] | 875–883.
|
| [45] | 安晓鹏, 史才军, 何富强, 等. 三组分胶凝材料体系的交流阻抗特
|
| [46] | 性[J]. 硅酸盐学报, 2012, 40(7): 1059–1066.
|
| [47] | AN Xiaopeng, SHI Caijun, HE Fuqiang, et al. J Chin Ceram Soc, 2012,
|
| [48] | 40(7): 1059–1066.
|
| [49] | LARSEN C K. Chloride binding in concrete – Effect of surrounding
|
| [50] | environment and concrete composition[D]. Trondheim: Structural
|
| [51] | Engineering NTNU, 1998.
|
| [52] | FRIEDMANN H, AMIRI O, A?t-MOKHTAR A. Physical modeling
|
| [53] | of the electrical double layer effects on multispecies ions transport in
|
| [54] | cement-based materials[J]. Cem Concr Res, 2008, 38(12):
|
| [55] | 1394–1400.
|
| [56] | ? YUAN Q, SHI C, De SCHUTTER G, et al. Chloride binding of
|
| [57] | cement-based materials subjected to external chloride environment–A
|
| [58] | review[J]. Constrd Build Mater, 2009, 23(1): 1–13.
|
| [59] | 王昌义, 陈迅捷, 张燕驰, 等. 磨细矿渣高性能混凝土研究[J]. 水
|
| [60] | 运工程, 2000, 8: 12–18.
|
| [61] | WANG Changyi, CHEN Xunjie, ZHANG Yanchi, et al. Port Waterw
|
| [62] | Eng (in Chinese). 2000, 8: 12-18.
|
| [63] | MILLARD M J, KURTIS K E. Effects of lithium nitrate admixture on
|
| [64] | early-age cement hydration[J]. Cem Concr Res, 2008, 38(4): 500–510.
|
| [65] | MAAHN E, SORENSEN B. The influence of microstructure on the
|
| [66] | corrosion properties of hot-dip galvanized reinforcement in concrete[J].
|
| [67] | Corrosion, 1986, 42(4): 187–196.
|
| [68] | LAWRENCE P, CYR M, RINGOT E. Mineral admixtures in mortars:
|
| [69] | effect of inert materials on short-term hydration[J]. Cem Concr Res,
|
| [70] | 2003, 33(12): 1939–1947.
|
| [71] | NAGATAKI S, OTSUKI N, WEE T, et al. Condensation of chloride
|
| [72] | ion in hardened cement matrix materials and on embedded steel bars[J].
|
| [73] | ACI Mater J, 1993, 90(4): 323–332.
|
| [74] | 元强. 水泥基材料中氯离子传输试验方法的基础研究[D]. 中南大
|
| [75] | 学, 2009.
|
| [76] | YUAN Qiang. Fundamental studies on test methods for the transport of
|
| [77] | chloride ions in cementitious materials (in Chinese, dissertation).
|
| [78] | Changsha: Central South University, 2009.
|
| [79] | ELAKNESWARAN Y, NAWA T, KURUMISAWA K. Electrokinetic
|
| [80] | potential of hydrated cement in relation to adsorption of chlorides[J].
|
| [81] | Cem Concr Res, 2009, 39(4): 340–344.
|
| [82] | ELAKNESWARAN Y, NAWA T, KURUMISAWA K. Zeta potential
|
| [83] | study of paste blends with slag[J]. Cem Concr Compos, 2009, 31(1):
|
| [84] | 72–76.
|
| [85] | 元强, 史才军, GEERT De Schutter, 等. 氯盐浸泡的水泥基材料的
|
| [86] | 表面氯离子浓度[J]. 硅酸盐学报. 2011, 39(3): 544–549.
|
| [87] | YUAN Qiang, SHI Caijun, GEERT De Schutter, et al. J Chin Ceram
|
| [88] | Soc, 2011, 39(3): 544–549.
|
| [89] | 何富强. 硝酸银显色法测量水泥基材料中氯离子迁移[D]. 中南大
|
| [90] | 1857–1865.
|
| [91] | SHI C, STEGEMANN J A, CALDWELL R J. Effect of supplementary
|
| [92] | cementing materials on the specific conductivity of pore solution and
|
| [93] | its implications on the rapid chloride permeability test (AASHTO T277
|
| [94] | and ASTM C1202) results[J]. ACI Mater J, 1998, 95(4): 389–394.
|
| [95] | SAEKI S, KANO J, SAITO F, et al., Effect of additives on
|
| [96] | dechlorination of PVC by mechanochemical treatment[J]. J Mater
|
| [97] | Cycles Waste Manage, 2001, 3: 20–23.
|
| [98] | BEAUDOIN J J, RAMACHANDRAN V S, FELDMAN R F.
|
