Page 30 - 水利学报2021年第52卷第6期

P. 30

togenous healing of engineered cementitious composites［J］ . Cement and Concrete Composites，2016，73：
203-212 .
［ 69］ QIAN S，ZHOU J，ROOIJ M R D，et al . Self-healing behavior of strain hardening cementitious composites incor⁃
porating local waste materials［J］. Cement and Concrete Composites，2009，31（9）：613-621 .
［ 70］ YANG Y Z，LEPECH M D，YANG E H，et al . Autogenous healing of engineered cementitious composites under
wet-dry cycles［J］. Cement and Concrete Research，2009，39（5）：382-390 .
［ 71］ VAN TITTELBOOM K，GRUYAERT E，RAHIER H，et al . Influence of mix composition on the extent of autoge⁃
nous crack healing by continued hydration or calcium carbonate formation［J］. Construction and Building Materi⁃
als，2012，37：349-359 .
［ 72］ AHN T H，KISHI T . Crack self-healing behavior of cementitious composites incorporating various mineral admix⁃
tures［J］. Journal of Advanced Concrete Technology，2010，8：171-176 .
［ 73］ SISOMPHON K，COPUROGLU O，KOENDERS E A B . Self-healing of surface cracks in mortars with expansive
additive and crystalline additive［J］. Cement and Concrete Composites，2004，26（4）：566-574 .
［ 74］ HUANG H，YE G，DAMIDOT D . Effect of blast furnace slag on self-healing of microcracks in cementitious mate⁃
rials［J］. Cement and Concrete Research，2014，60：68-82 .
［ 75］ LEE Y S，RYOU J S . Self-healing behavior for crack closing of expansive agent via granulation/film coating meth⁃
od［J］. Construction and Building Materials，2014，71：188-193 .
［ 76］ QURESHI T S，AL-TABBAA A . Self-healing of drying shrinkage cracks in cement-based materials incorporat⁃
ing reactive MgO［J］. Smart Material Structures，2016，25（8）：084004 .
［ 77］ HUANG H，YE G，BREUGEL K V . Numerical simulation on moisture transport in cracked cement-based materi⁃
als in view of self-healing of crack［J］. Journal of Wuhan University of Technology-Mater Science Edition，2010，
25（6）：1077-1081 .
［ 78］ LUAN Y，ISHIDA T . Simulation on water absorption behavior of ECC material with different crack density and
distribution［J］. Transactions of the Japan Concrete Institute，2014，36（1）：826-831 .
［ 79］ VAN BELLEGHEM B，MONTOYA R，DEWANCKELE J，et al . Capillary water absorption in cracked and un⁃
cracked mortar-A comparison between experimental study and finite element analysis［J］. Construction and Build⁃
ing Materials，2016，110：154-162 .
［ 80］ SMYL D，GHASEMZADEH F，POUR-GHAZ M . Modeling water absorption in concrete and mortar with distrib⁃
uted damage［J］. Construction and Building Materials，2016，125：438-449 .
［ 81］ SMYL D，GHASEMZADEH F，POUR-GHAZ M . Can the dual-permeability model be used to simulate unsatu⁃
rated moisture flow in damaged mortar and concrete?［J］. International Journal of Advances in Engineering Scienc⁃
es and Applied Mathematics，2017，9（2）：54-66 .
［ 82］刘兆麟 . 非饱和水泥基材料中水分传输的数值模拟研究［D］. 青岛：青岛理工大学，2018 .
［ 83］ WANG L C，UEDA T . Mesoscale modeling of water penetration into concrete by capillary absorption［J］. Ocean
Engineering，2011，38（4）：519-528 .
［ 84］王立成，鲍玖文 . 开裂混凝土中水分传输过程的细观模型［J］. 建筑材料学报，2014，17（6）：972-977，
983 .
［ 85］ WANG L C，BAO J W，UEDA T . Prediction of mass transport in cracked-unsaturated concrete by mesoscale lat⁃
tice model［J］. Ocean Engineering，2016，127：144-157 .
［ 86］王立成，鲍玖文 . 干湿交替下开裂混凝土中水分传输的细观数值分析［J］. 水利学报，2016，47（8）：
986-995 .
［ 87］ ZHANG P，WITTMANN F H，ZHAO T，et al . Neutron imaging of water penetration into cracked steel reinforced
concrete［J］. Physica B：Condensed Matter，2010，405（7）：1866-1871 .
［ 88］ LI X X，CHEN S H，XU Y，et al . Modeling capillary water absorption in concrete with discrete crack network
［J］. Journal of Materials in Civil Engineering，ASCE，2017，30（1）：04017263
［ 89］ LI X X，LI D Q，XU Y . Modeling the effects of microcracks on water permeability of concrete using 3D discrete
crack network［J］. Composite Structures，2019，210：262-273 .
（下转第 672 页）

— 658 —

25 26 27 28 29 30 31 32 33 34 35