1) fiber-reinforced concrete complex
光纤-含筋混凝土复合体
1.
In the paper, for the first time, micro-mechanical behaviors of fiber-reinforced concrete complex are investigated, and 3D nonlinear numerical analyses is perform, in which both the effect of rigid structure on fiber and the frictional contact on contact surfaces between different materials are taken into account.
考虑了刚性保护件对光纤周围应力场的扰动及不同材料界面间的摩擦接触,对光纤-含筋混凝土复合体建立模型,进行了三维非线性数值分析,模拟出复合体在裂缝开裂过程中微观应力应变状态,从理论上验证了金属保护件对光纤周围应力场的影响,尤其是保护件和光纤的间距对光纤传感精度的影响,并验证了试验中光纤传感的动态范围。
2) fiber reinforced plastics-reinforced concrete composite beam
纤维复合材料-钢筋混凝土复合梁
3) fiber reinforced plastics-reinforced concrete
纤维复合材料-钢筋混凝土
4) the concrete hydraulic gate of carbon fiber composite
复合碳纤维筋混凝土闸门
1.
By comparison with the metal gate,the concrete hydraulic gate of carbon fiber composite(CFC)has better durability and bearing capacity.
复合碳纤维筋混凝土闸门相对金属闸门具有更好的耐久性和承载力。
5) complex fiber concrete
复合纤维混凝土
1.
This article considered mechanism and durability of bridge deck pavement mainly from material aspect, therefore has introduced the complex fiber concrete material.
鉴于一般混凝土桥面铺装层会出现各种各样的早期病害,本文主要从材料方面考虑加强桥面铺装层的力学及耐久性能,因此引入了复合纤维混凝土材料,它集良好的力学性能和优越的耐久性能于一体,非常适合作为桥面铺装层材料。
6) composite RC beam
复合钢筋混凝土梁
1.
Based on the previous achievements of the research team, three mechanical mechanisms are generalized for the GFRP composite RC beams according to the fracture mechanics in the paper, and the interface problem of the new structure preliminarily analyzed.
在课题组前期研究的基础上,本文基于断裂力学基本原理归纳了GFRP复合钢筋混凝土梁用到的三个力学机理,并对新结构的界面问题进行了简单分析。
补充资料:染色体结合复合体
分子式:
CAS号:
性质:一种细胞器,出现于减数分裂过程中,染色体同源区域间居间的密切的成双配对。
CAS号:
性质:一种细胞器,出现于减数分裂过程中,染色体同源区域间居间的密切的成双配对。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条