標題: 不同尺寸及不同埋置長度纖維強化複合材料加強筋在高溫中之握裹力
The bonding capability of FRP bar with different size and embedment length at elevated temperatures
作者: 蘇耿崧
Geng-Sung Su
鄭復平
Fu-Ping Cheng
土木工程學系
關鍵字: 纖維強化複合材料加強筋;握裹應力;握裹破壞模式;劈裂破壞;拉出破壞;拉拔滑動變位;Fiber Reinforced Polymer bar;bonding stress;failure mode;splitting failure;pullout failure;slip displacement
公開日期: 2003
摘要: 本研究針對不同尺寸及不同埋置長度纖維強化複合材料加強筋在不同高溫加熱環境下對其握裹破壞模式、握裹應力及拉拔滑動變位之影響為主題。 研究結果顯示,在常溫環境下握裹破壞模式為纖維強化複合材料加強筋拉出破壞,隨著溫度的上升混凝土試體的強度及楊氏係數下降使得破壞模式逐漸變成混凝土試體劈裂破壞。握裹應力隨著溫度上升而向下遞減,當試體加熱至200℃以上時握裹應力相較於在常溫時下降的非常多,觀察試驗後之纖維強化複合材料加強筋可發現纖維強化複合材料加強筋的表面噴砂有脫落的現象,由此可知纖維棒本體與表面噴砂間的界面黏膠環氧樹脂(EPOXY)並不耐高溫。 由本研究的結果可得知纖維強化複合材料為一良好的抗拉材料,但若要在有高溫疑慮的地方使用纖維強化複合材料加強筋則必須加上防火被覆及找尋可耐高溫的界面黏劑來代替環氧樹脂。
The major concern of this research project is to deal with the bonding capability of different size and embedment length of FRP bar in concrete at elevated temperatures. The relationship between bonding stress and slip displacement at different temperature were executed. The results show that the failure mode of specimens at the normal temperature is pullout failure. With the increase of temperature, the failure mode become splitting failure due to the reduction of the strength of concrete. With the increase of temperature over 200℃, the bonding capability decrease due to the failure of rough surface of FRP bar. The results of this research show that the tension strength of the FRP is well, but the FRP can’t endure high temperature. Adding fire-proofing material over surface and finding another adhesive material for rough surface that can endure high temperature are necessary for using FRP bar in stead of steel.
URI: http://140.113.39.130/cdrfb3/record/nctu/#GT009116514
http://hdl.handle.net/11536/48601
Appears in Collections:Thesis


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  16. 651416.pdf