检索规则说明:AND代表“并且”;OR代表“或者”;NOT代表“不包含”;(注意必须大写,运算符两边需空一格)
检 索 范 例 :范例一: (K=图书馆学 OR K=情报学) AND A=范并思 范例二:J=计算机应用与软件 AND (U=C++ OR U=Basic) NOT M=Visual
机构地区:[1]同济大学岩土及地下工程教育部重点实验室,上海200092 [2]同济大学土木工程学院,上海200092
出 处:《同济大学学报(自然科学版)》2013年第7期989-995,共7页Journal of Tongji University:Natural Science
基 金:国家自然科学基金(50578120)
摘 要:结合上海长江隧道一号联络通道工程,在温度应力耦合控制方程的基础上,分别考虑自然解冻和人工强制解冻条件下对流散热、混凝土初衬、二衬水化热等影响因素,分析了土体内部温度场、冻土厚度的发展变化以及由于冻土的解冻产生的融沉效应.通过分析发现自然解冻条件下经过大约44 d冻土完全融化,衬砌混凝土的水化热对冻土的解冻影响较大;不考虑混凝土水化热的作用,至50 d冻土仅能解冻23%;由于冻土的融沉效应,联络通道区域整体沉降,通道中心竖向位移为-2 cm;采用强制解冻冻土解冻较快,仅需4.3d就可完全解冻,与冻结过程相反,双排管之间最先解冻,然后是内侧冻土,最后是外侧冻土.Coupling the governing equations of temperature and stress, this study investigates the issues of temperature field, development of frozen wall thickness, and thaw settlement by taking into consideration the effects of convection and hydration heat from preliminary/secondary concrete lining. Cases of both naturally and artificially thawing are studied for the scenario of Cross Passage 1 in Shanghai Yangtze River Tunnel. In naturally thawing condition, it takes 44 days for all frozen soil to melt and this process is significantly influenced by the hydration heat from preliminary concrete lining while that only 23 % of the frozen soil melt without regard to the hydration heat in 50 days. Soil mass in the cross passage area shows a downwarddisplacement of 2cm due to the thawing effect. As for the case of artificial thawing, all frozen soil melts after 4.3 days. Contrary to the process of freezing, thawing of soil first occurs within the area between the two rings of freezing pipes, then that between the preliminary lining and the inner freezing pipe ring, and last that out of the outer ring.
分 类 号:U453.4[建筑科学—桥梁与隧道工程]
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在链接到云南高校图书馆文献保障联盟下载...
云南高校图书馆联盟文献共享服务平台 版权所有©
您的IP:216.73.216.249
