2013, Volume 15, Issue 8
Strategic Study of CAE >> 2013, Volume 15, Issue 8
Analysis and control of hydration heat of cast-in-place diaphragm of segmental precast box girder
1. National Engineering Research Center for Prestressing, Southeast University, Nanjing 210096, China;
2. Nanjing Major Road & Bridge Construction Commanding Department, Nanjing 210033, China
Next Previous
Abstract
For the pier segment of the segmental precast bridge, the diaphragm is often casted in place to reduce the lifting weight. Considering the volume of the diaphragm, it belongs to massive concrete,in which concrete hydration heat may cause excessive tensile stress in some parts. Without right control measures often lead to cracking of the precast segments during the construction phase. Based on three-dimensional transient temperature field theory, numerical simulation with ANSYS was performed, to investigate the distribution law of hydration heat temperature and stress. The analysis shows that, the tensile stress at the outside of the webs is sufficient to lead to concrete cracking, longitudinal micro-cracks along the webs is also observed during the hydration heat test. With the distribution of temperature and stress obtained from numerical simulation, a series of control measures were proposed and adopted to the Fourth Nanjing Yangtze River Bridge approach project, which were proved to be feasible and effective.
Keywords
concrete box girder ; hydration heat ; temperature field ; stress field ; cracks
Figures
图1
图2
图3
图4
图5
图6
图7
图8
图9
图10
图11
图12
References
[ 1 ] 刘 钊. 桥梁概念设计与分析理论(上册)[M]. 北京:人民交通 出版社,2010.
[ 2 ] 杨秋玲,马可栓. 大体积混凝土水化热温度场三维有限元分析 [J]. 哈尔滨工业大学学报,2004,36(2):261-263. link1
[ 3 ] 朱 波,龚清盛,周水兴,等. 连续刚构桥0号块水化热温度场 分析[J]. 重庆交通大学学报(自然科学版),2012,31(5):924- 926,952. link1
[ 4 ] 臧 华,刘 钊,文武松,等. 苏通大桥辅桥箱梁节段水化热效 应的仿真分析[J]. 公路交通科技,2007,24(5):95-98. link1
[ 5 ] Schindler A,Folliard K. Heat of hydration models for cementitious materials [J]. ACI Materials Journal,2005,102(1):24-33. link1
[ 6 ] 凌道盛,许德胜,沈益源,等. 混凝土中水泥水化反应放热模型 及其应用[J]. 浙江大学学报(工学版),2005,39(11):1695- 1698. link1
[ 7 ] Kim G,Lee E,Koo K. Hydration heat and autogenous shrinkage of high-strength mass concrete [J]. Journal of Asian Architecture and Building Engineering,2009,8(2):509-516. link1
[ 8 ] Meinhard K,Lackner R. Multi-phase hydration model for prediction of hydration- heat release of blended cements [J]. Cement and Concrete Research,2008,38(6):794-802. link1
[ 9 ] Branco F,Mendes P,Mirambell E. Heat of hydration effects in concrete structures [J]. ACI Materials Journal,1992,89(2): 139-145. link1
[10] Amin M,Kim J,Kim J. Assessment of cracking in concrete due to hydration heat and autogenous shrinkage [J]. International Journal of Structural Engineering,2010,1(2):145-159. link1
京公网安备 11010502051620号
