最新【精品】范文参考文献专业论文庙嘴三江桥主塔承台大体积混凝土温度裂缝控制庙嘴三江桥主塔承台大体积混凝土温度裂缝控制摘要:针对庙嘴三江桥主塔承台的结构特点,根据现场资料及混凝土物理、 热学性能的试验结果, 采用有限元计算分析主塔承台施工期内部温度场及应力场,制定温控标准。对承台浇筑温度、混凝土内部温度场进行了跟踪监控, 并根据监测数据实时调整温控措施。通过监测数据与计算结果比较分析,温度监测结果与计算较为吻合。从现场情况来看,未出现裂缝,达到了预期的温控目标。关键词:承台;大体积混凝土;温度裂缝控制中图分类号: TV544 文献标识码: A Abstract:Based on the structural characteristics of MiaoZuiSanJing bridge main tower caps,according to the field data and the concrete physical or thermal performance test results,used the finite element analysis and calculation of the main tower caps internal temperature and stress field during the construction ,set the temperature control standard.pile caps of the pouring temperature and internal temperature was tracked and monitored,and according to the monitoring results of real-time adjustment of temperature measures.Though comparison and analysis of monitoring data and calculated results,both are in good agreement.From the field,the pile caps did not appear harmful crack,reached the expected target. Keywords:pile caps ; mass concrete; control of thermal cracking 1、项目概况1.1 工程概况庙嘴三江桥位于湖北省宜昌市城区,采用主跨210m中央索面高最新【精品】范文参考文献专业论文低塔混凝土梁斜拉桥,一跨过三江。主桥桥长378m,桥跨布置为(39+73+210+56)m。SJ3#主塔承台位于南岸(西坝)护坡面以下,平面尺寸为 19.2m×14.2m,厚度为 5.0m,承台顶标高 +47.953m;SJ4#主塔承台为八边形截面,位于江北岸护坡内,平面尺寸为18.4 ×12.4m,厚度为 4.0m,承台顶标高为 +47.861m。两承台均采用坡面截槽开挖方式,形成承台基坑,江北岸和西坝岸基坑深10~12m,坑底低于多年主汛期 (6~9 月)水位。承台采用复合围堰, 底部为 1.3m后混凝土封底。下段为矩形钢筋混凝土围...
