碳纤维板可以有效的改善梁底裂缝的分布形态。
The configuration of crack in the beam's bottom could be markedly improved.
本文研究采用在混凝土构件侧面粘贴碳纤维板这种新形式加固受弯构件的受力性能。
In this paper, the behavior of the flexural RC member bonded with CFRP board on its vertical sides was investigated by the authors recently.
一辆高科技F1赛车的车身底盘是由碳纤维板和其他材料合制成的,底盘非常的轻巧而且强力大耐用。
A modern F1 race chassis is constructed of carbon fibre composite material and provides a structure that is durable, extremely light and strong.
体外粘贴碳纤维板(CFRP)或钢板可有效地加固钢筋混凝土结构,使其承载力提高,受力性能改善。
The RC structures can be strengthened effectively by using of a bonded CFRP or steel plate so that its load bearing capacity can be increased and its behavior carrying load improved.
使用体外预应力碳纤维板加固受弯构件,可以充分发挥碳纤维板的强度,提高结构的正常使用性能和极限承载能力。
External prestressing CFRP can give full play to the strength of CFRP to improve the structure of the normal use performance and ultimate bearing capacity.
使用体外预应力碳纤维板加固受弯构件,可以充分发挥碳纤维板的强度,提高结构的正常使用性能和极限承载能力。
External prestressing CFRP can give full play to the strength of CFRP to improve the structure of the normal use performance and ultimate bearing capacity.
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