根据氯离子在混凝土中的传输机制,考虑干湿交替过程中水分传输的差异,推导得出氯离子在非饱和混凝土中传输的对流-扩散控制方程。试验结果与模型计算结果吻合良好。计算结果表明:自由氯离子浓度随着干湿循环次数的增加而增加,对流区深度、表面氯离子浓度和峰值氯离子浓度随着干湿循环次数的增加而增加并逐渐趋于稳定,根据计算结果回归得出各指标随干湿循环次数的变化方程。
According to the chloride ion transmission mechanism, the chloride convection-diffusion control equation in unsaturated concrete was derived by considering the difference of moisture transmission the dry-wet alternate process. The results of model calculation have a good correlation with the measured results. The calculation results show that the free chloride ion concentration with increase with the increase of dry-wet cycles, the convection zone depth, surface chloride ion concentration and peak chlorine ion concentration increases with dry-wet cycles and gradually stabilized. The regression equations of each index were obtained.
参考文献
| [1] | Erik P. Nielsen;Mette R. Geiker.Chloride diffusion in partially saturated cementitious material[J].Cement and Concrete Research,20031(1):133-138. |
| [2] | 向发海 .氯离子在混凝土中的传输机理研究[D].中南大学,2011. |
| [3] | 金伟良;张奕;卢振勇.非饱和状态下氯离子在混凝土中的渗透机理及计算模型[J].硅酸盐学报,2008(10):1362-1369. |
| [4] | 王传坤;高祥杰;赵羽习;金伟良;徐巧玲.混凝土表层氯离子含量峰值分布和对流区深度[J].硅酸盐通报,2010(2):262-267. |
| [5] | Gang Lin;Yinghua Liu;Zhihai Xiang.Numerical modeling for predicting service life of reinforced concrete structures exposed to chloride environments[J].Cement & concrete composites,20108(8):571-579. |
| [6] | S.F.Wong;T.H.Wee;S.Swaddiwudhipong.Study of water movement in concrete[J].Magazine of concrete research,20013(3):205-220. |
| [7] | 施惠生;王琼.海工混凝土使用寿命预测研究[J].建筑材料学报,2004(2):161-167. |
| [8] | A.T.C. Guimaraes;MA Climent;G. de Vera;FJ. Vicente;F.T. Rodrigues;C. Andrade.Determination of chloride diffusivity through partially saturated Portland cement concrete by a simplified procedure[J].Construction and Building Materials,20112(2):785-790. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%