1·The improved model is proposed for calculating the maximum crack width.
改进了最大裂缝宽度的计算模式。
2·The deflection and the crack width of the SRC transfer girder are calculated.
验算钢骨混凝土转换梁的挠度和裂缝宽度。
3·Then, the strength of the structure and crack width are checked by using the nonlinear FEM.
然后以考虑混凝土开裂的非线性有限元方法校核结构强度和裂缝宽度。
4·Finally, an improved method of calculating crack width of RC beams strengthened with FRP was suggested.
最后,提出了粘贴纤维布加固rc梁的受弯裂缝宽度计算方法。
5·On this base, main reasons of influencing concrete slab's crack width of composite girder have been discussed.
在此基础上,讨论了影响组合梁混凝土板裂缝宽度的主要原因。
6·Crack width is a most significant parameter for the durability assessment and design of reinforced concrete structures.
锈胀裂缝宽度是混凝土结构耐久性与设计评估的重要参数。
7·Then, through the crack width and crack spacing analysis, proposed control measures for cracks from design, construction, etc.
然后,通过对裂缝宽度和裂缝间距的分析,从设计、施工等方面提出控制裂缝的措施。
8·It shows that finite element analysis could replace experiments to study the crack width of reinforced concrete beams in a way.
说明有限元分析在某种程度上可以代替试验对钢筋混凝土梁裂缝宽度进行研究分析。
9·The test results show that steel fiber reinforced self-stressing concrete could decrease the crack width of penstocks effectively.
试验表明,利用钢纤维和自应力混凝土可以有效地降低管道外包混凝土的裂缝宽度。
10·On the static loading test, to obtain a more precise result, the HJ series of concrete sensor was used to measure concrete crack width.
在静载试验中对混凝土裂缝宽度的量测采用HJ系列混凝应变计,获得了较精确的试验结果。