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玻璃纤维复材筋与水泥基复合材料界面力学性能试验研究及精细化有限元仿真 被引量:2
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作者 张黎飞 郑愚 +5 位作者 胡少伟 邸博 夏立鹏 周玲珠 王晓璐 张展铭 《工业建筑》 CSCD 北大核心 2019年第9期10-17,共8页
玻璃纤维复材(GFRP)筋水泥基复合材料(ECC)构件受力变形过程中,筋材与基体协调变形能力影响构件及组合构件的工作性能。本文通过GFRP筋ECC黏结-滑移试验建立界面黏结滑移本构,结合ECC变形及开裂后力学属性,采用ABAQUS有限元软件进行GFRP... 玻璃纤维复材(GFRP)筋水泥基复合材料(ECC)构件受力变形过程中,筋材与基体协调变形能力影响构件及组合构件的工作性能。本文通过GFRP筋ECC黏结-滑移试验建立界面黏结滑移本构,结合ECC变形及开裂后力学属性,采用ABAQUS有限元软件进行GFRP筋ECC构件黏结界面力学性能分析,研究筋材及基体应变分布随加载过程的演化及不同黏结-滑移关系对构件工作性能的影响。研究表明,GFRP筋材直径影响黏结滑移性能及界面破坏模式,界面力学属性的提高能够增加二者协同工作性能,改善构件的开裂属性;基于试验中筋材应变分布,分析基体破坏、应力分布,研究构件受拉破坏过程整体拉伸刚度变化,为反演宏观构件正常工作状态下工作机理提供分析方法。 展开更多
关键词 玻璃纤维增强复材筋 水泥基 界面性能 有限元 拉伸刚化
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Nonlinear behavior of concrete beams with hybrid FRP and stainless steel reinforcements 被引量:2
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作者 方志 龚畅 +1 位作者 杨剑 CAMPBELL T I 《Journal of Central South University》 SCIE EI CAS 2009年第3期495-502,共8页
The full-range behavior of partially bonded, together with partially prestressed concrete beams containing fiber reinforced polymer (FRP) tendons and stainless steel reinforcing bars was simulated using a simplified... The full-range behavior of partially bonded, together with partially prestressed concrete beams containing fiber reinforced polymer (FRP) tendons and stainless steel reinforcing bars was simulated using a simplified theoretical model. The model assumes that a section in the beam has a trilinear moment--curvature relationship characterized by three particular points, initial cracking of concrete, yielding of non-prestressed steel, and crushing of concrete or rupturing of prestressing tendons. Predictions from the model were compared with the limited available test data, and a reasonable agreement was obtained. A detailed parametric study of the behavior of the prestressed concrete beams with hybrid FRP and stainless steel reinforcements was conducted. It can be concluded that the deformability of the beam can be enhanced by increasing the ultimate compressive strain of concrete, unhonded length of tendon, percentage of compressive reinforcement and partial prestress ratio, and decreasing the effective prestress in tendons, and increasing in ultimate compressive strain of concrete is the most efficient one. The deformability of the beam is almost directly proportional to the concrete ultimate strain provided the failure mode is concrete crushing, even though the concrete ultimate strain has less influence on the load-carrying capacity. 展开更多
关键词 beam fiber reinforced polymer (FRP) stainless steel PRESTRESS DEFORMABILITY reinforcement
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