Sustainable precast concrete elements are emerging utilizing high-performance, self-consolidating, fibre-reinforced concrete (HPSCC) reinforced with high-strength, lightweight, and non-corroding prestressed carbon fibre reinforced plastic tendons. One example of this is a new type of precast carbon FRP pretensioned HPSCC panel intended as load-bearing panels for glass concrete building facades. It is known that the bond strength between both steel and FRP reinforcing tendons and concrete deteriorates at elevated temperature and that high strength concrete tends to an explosive spalling failure mode when subjected to a fire. The bond strength reductions in fire, their impacts on the load-bearing capacity of prestressed concrete structures, and the spalling behaviour of high-strength concrete remain poorly understood. This paper gives insight in the fire behaviour of filigree CFRP prestressed HPSCC slabs and presents selected results and analysis of an experimental fire test series on 45 mm and 60 mm thin-walled slabs. The main findings are that the fire resistance of the slabs is determined by spalling of the HPSCC or – if spalling can be avoided by the use of 5 kg/m3 PP microfibers in the concrete – by the thermal splitting-crack induced bond failure of the CFRP tendons in their prestress transfer zone.
展开▼
机译:利用高性能,自固结,纤维增强混凝土(HPSCC)和高强度,轻质且不腐蚀的预应力碳纤维增强塑料腱筋来增强可持续性的预制混凝土构件的地位。一个例子是一种新型的预制碳纤维增强玻璃纤维布预张紧的HPSCC面板,旨在用作玻璃混凝土建筑物外墙的承重面板。众所周知,钢和FRP增强筋与混凝土之间的粘结强度在高温下会降低,并且高强度混凝土在遭受火灾时会趋向于爆炸性剥落破坏模式。火灾中的粘结强度降低,其对预应力混凝土结构的承载能力的影响以及高强度混凝土的剥落行为仍然知之甚少。本文深入研究了花丝CFRP预应力HPSCC板的耐火性能,并提供了选定的结果和对45 mm和60 mm薄壁板的实验耐火试验系列的分析。主要发现是,平板的耐火性是由HPSCC剥落决定的,或者-如果在混凝土中使用5 kg / m3 PP超细纤维可以避免剥落的话,则是由热裂开引起的粘结破坏决定的。 CFRP筋在其预应力传递区。
展开▼
