DESIGN AND EXPERIMENTAL STUDY OF MULTI-CONE ANCHORAGES FOR CARBON FIBER TENDONS
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摘要: 鉴于现有纤维筋锚具外型尺寸大而不利于工程应用的现状,提出一种新型多级锥体锚固结构,其外径小,且多级锥体可调节筋束的挤压应力,消减受荷端挤压应力集中。通过对多级锥体锚具开展静载拉伸试验,验证其有效性,对试验现象、锚固效率系数、筋束受荷端受到的挤压情况进行分析。结果表明:多锥体锚固结构均未发生滑脱现象,锚固效率系数达到90%以上,满足了拉索锚具设计标准的要求;锚具外周环向应力可反映内部筋束受到的径向挤压应力,两个内锥环向应力相差不大,说明新型锚具可有效减小筋材在锚具前端的挤压应力集中。Abstract: Due to the large size of the existing fiber reinforced anchorage is not conducive to engineering application, a new type of multi-cone anchorage structure was proposed. Its outer diameter is small, and the extrusion stress of multi-cone adjustable tendons can reduce the extrusion stress concentration at the loading end. Static tension tests were carried out to verify the effectiveness of the multi-cone anchorage. The experimental phenomena, anchorage efficiency coefficient and the extrusion stress at the loading end of the tendon were analyzed. The results showed that no slippage occurred in the multi-cone anchorage structure, and the anchorage efficiency coefficient reached more than 90%, which met the requirements of the cable anchorage design standard; the circumferential stress of the anchorage could reflect the radial extrusion stress of the internal tendons, and the difference between the circumferential stress of the two inner cones was not significant, which indicated that the new anchorage could effectively reduce the extrusion stress concentration of the tendons at the loading end of the anchorage.
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HOLLAWAY L. A Review of the Present and Future Utilisation of FRP Composites in the Civil Infrastructure with Reference to Their Important In-Service Properties[J]. Construction Building Materials, 2010, 24(12):2419-2445. MUFTI A A. FRPs and FOSs Lead to Innovation in Canadian Civil Engineering Structures[J]. Construction Building Materials, 2003, 17(6/7):379-387. 叶列平, 冯鹏. FRP在工程结构中的应用与发展[J]. 土木工程学报, 2006, 39(3):24-36. MEIER U. Carbon Fiber Reinforced Polymer Cables:Why? Why not? What if?[J]. Arabian Journal for Science Engineering, 2012, 37(2):399-411. MEIER U, DIPL-ING. Proposal for a Carbon Fibre Reinforced Composite Bridge Across the Strait of Gibraltar at Its Narrowest Site[J]. Proceedings of the Institution of Mechanical Engineers, Part B:Management Engineering Manufacture, 1987, 201(2):73-78. NANNI A, BAKIS C E, O'NEIL E F, et al. Performance of FRP Tendon-Anchor Systems for Prestressed Concrete Structures[J]. PCI Journal, 1996, 41(1):34-44. 蒋田勇, 方志. CFRP预应力筋夹片式锚具的试验研究[J]. 土木工程学报, 2008(2):60-69. MEI K, SERACINO R, LYU Z. An Experimental Study on Bond-Type Anchorages for Carbon Fiber-Reinforced Polymer Cables[J]. Construction and Building Materials, 2016, 106:584-591. SCHMIDT J W, BENNITZ A, TÄLJSTEN B, et al. Mechanical Anchorage of FRP Tendons:A Literature Review[J]. Construction and Building Materials, 2012, 32:110-121. 刘荣桂, 李十泉, 李明君, 等. CFRP筋新型锚具静载试验及有限元分析[J]. 工业建筑, 2011,41(增刊1):624-627. 梅葵花. CFRP粘结型锚具的受力性能分析[J]. 桥梁建设, 2007(3):80-83. 刘荣桂, 许飞. CFRP拉索试验桥锚具的有限元分析[J]. 工业建筑, 2009, 39(12):61-64. 汪昕,周竞洋,宋进辉,等.大吨位FRP复合材料拉索整体式锚固理论分析[J].复合材料学报,2019,36(5):1169-1178. WANG X, XU P, WU Z, et al. A Novel Anchor Method for Multi-Tendon FRP Cable:Concept and FE Study[J]. Composite Structures, 2015, 120:552-564. 乌尔斯·梅耶尔, 张攀, 冯鹏. 碳纤维复合材料拉索:为什么?为什么不?会怎么样?[J]. 玻璃钢/复合材料, 2011(5):3-11. 诸葛萍, 丁勇, 侯苏伟, 等. 新型碳纤维索股锚固体系理论与试验研究[J]. 中国公路学报, 2014, 27(12):80-87. 侯苏伟,龙佩恒,诸葛萍,等.CFRP索股粘结型锚具锚固机理试验[J].中国公路学报,2013,26(5):95-101. WU J, XIAN G, LI H. A Novel Anchorage System for CFRP Cable:Experimental and Numerical Investigation[J]. Composite Structures, 2018, 194:555-563.
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