TAMIMI A K,ABDALLA J A,SAKKA Z I.Prediction of Long Term Chloride Diffusion of Concrete in Harsh Environment[J].Construction and Building Materials,2008,22(5):829-836.
[2]
CEB-FIP Model Code 1990,Design Code[S].
[3]
弗兰克 P 莫克鲁佩勒,大卫 P 德维特,狄奥多尔 L伯格曼,等.传热和传质基本原理[M].葛新石,叶 宏,译.北京:化学工业出版社,2007. INCROPERA F P,DEWITT D P,BERGMAN T L,et al.Fundamentals of Heat and Mass Transfer[M].Translated by GE Xin-shi,YE Hong.Beijing:Chemical Industry Press,2007.
[4]
王补宣.工程传热传质学[M].北京:科学出版社,2002. WANG Bu-xuan.Engineering Heat and Mass Transfer Theory[M].Beijing:Science Press,2002.
[5]
GUMMERSON R J,HALL C,HOFF W D,et al.Unsaturated Water Flow Within Porous Materials Observed by NMR Imaging[J].Nature,1979,281:56-57.
[6]
LI Ke-fei,LI Chun-qiu,CHEN Zhao-yuan.Influential Depth of Moisture Transport in Concrete Subject to Drying-wetting Cycles[J].Cement and Concrete Composites,2009,31(10):693-698.
[7]
李春秋.干湿交替下表层混凝土中水分与离子传输过程研究[D].北京:清华大学,2009. LI Chun-qiu.Study on Water and Ionic Transport Processes in Concrete Cover Under Drying-wetting Cycles[D].Beijing:Tsinghua University,2009.
[8]
HB 5194—1981,周期浸润腐蚀试验方法[S]. HB 5194—1981,Cycle Infiltration Corrosion Test Method[S].
[9]
TB/T 2375—93,铁路用耐候钢周期浸润腐蚀试验方法[S]. TB/T 2375—93,Railway with Weathering Steel Cycle Infiltration Corrosion Test Method[S].
[10]
GB/T 10125—1997,人造气氛腐蚀试验——盐雾试验[S]. GB/T 10125—1997,Corrosion Tests in Artificial Atmospheres-Salt Spray Test[S].
[11]
卢振永.氯盐腐蚀环境的人工模拟试验方法[D].杭州:浙江大学,2007. LU Zhen-yong.Artificial Simulation Test Method for Chlorine Salt Corrosion Environment[D].Hangzhou:Zhejiang University,2007.
[12]
SWAMY R N,TANIKAWA S.An External Surface Coating to Protect Concrete and Steel from Aggressive Environments[J].Materials and Structures,1993,26(8):465-478.
[13]
KONIN A,FRANCOIS R,ARLIGUIE G.Penetration of Chloride in Relation to the Microcracking State into Reinforced Ordinary and High Strength Concrete[J].Material and Structures,1998,31(5):310-316.
[14]
彭 智.干湿循环与荷载耦合作用下氯离子侵蚀混凝土模型研究[D].杭州:浙江大学,2010. PENG Zhi.Study on the Model of the Chloride Ion Erosion Concrete Under the Effect of Drying-wetting Cycles and Load[D].Hangzhou:Zhejiang University,2010.
[15]
BAZANT Z P,NAJJAR L J.Nonlinear Water Diffusion in Nonsaturated Concrete[J].Material and Structure,1972,5(1):3-20.
[16]
YUAN Y,WAN Z L.Prediction of Cracking Within Early-age Concrete Due to Thermal,Drying and Creep Behavior[J].Cement and Concrete Research,2002,32(7):1053-1059.
[17]
黄凤良,夏春梅,陈 敏.确定对流传质系数的膜渗模型[J].南京师范大学学报:工程技术版,2007,7(3):26-29. HUANG Feng-liang,XIA Chun-mei,CHEN Min.Film-penetration Method to Determining the Convective Mass Transfer Coefficient[J].Journal of Nanjing Normal University:Engineering and Technology Edition,2007,7(3):26-29.
[18]
高家锐.动量、热量、质量传输原理[M].重庆:重庆大学出版社,1987. GAO Jia-rui.Transfer Principle for Momentum,Heat and Mass[M].Chongqing:Chongqing University Press,1987.
[19]
WONG S F,WEE T H,SWADDIWUDHIPONG S,et al.Study of Water Movement in Concrete[J].Magazine of Concrete Research,2001,53(3):205-220.
[20]
AKITA H,FUJIWARA T,OZAKA Y.A Practical Procedure for the Analysis of Moisture Transfer Within Concrete Due to Drying[J].Magazine of Concrete Research,1997,49(179):129-137.
[21]
陈敏恒,丛德滋,方图南,等.化工原理[M].北京:化学工业出版社,1999. CHEN Min-heng,CONG De-zi,FANG Tu-nan,et al.Principles of Chemical Engineering[M].Beijing:Chemistry Industry Press,1999.
[22]
张先棹.冶金传输原理[M].北京:冶金工业出版社,2004. ZHANG Xian-zhao.Principles of Metallurgy Transmission[M].Beijing:Metallurgical Industry Press,2004.
