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انجمن مهندسی مکانیک

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انجمن علمی مهندسی پزشکی

انجمن بیومکانیک

آموزش تعمیر تجهیزات پزشکی

آموزش تعمیرات تجهیزات پزشکی

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دوره های آموزشی مهندسی پزشکی

انجمن مهندسی پزشکی

آموزش تعمیر تجهیزات دندانپزشکی

آموزش بازرسی جوش

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Behavior of hollow FRP–concrete–steel columns under static cyclic axial compressive loading

Abstract

This paper presents the behavior of hollow fiber reinforced polymer–concrete–steel (HC-FCS) columns under axial compressive loading. The typical HC-FCS column consists of a concrete shell sandwiched between an outer fiber reinforced polymer (FRP) tube and an inner steel tube. The inner steel and outer FRP tubes provide continuous confinement for the concrete shell; hence, the concrete shell achieves a significantly higher strain, strength, and ductility compared to the unconfined concrete in conventional columns. The HC-FCS column represents a compact engineering system; the steel and FRP tubes act together as stay-in-place formworks. The effect of the fiber orientation and the steel tube diameter-to-thickness ratio (Di/ts) on the compressive behavior of HC-FCS columns was investigated. Ten HC-FCS cylinders with different steel tube Di/ts ratios and three concrete-filled fiber tubes (CFFTs) were manufactured and tested under static cyclic axial compressive loading in addition to three empty steel tubes. The behavior of the HC-FCS columns was complicated and related mainly to the stiffness of the FRP and steel tubes, which controlled the direction of the concrete dilation under axial load. HC-FCS columns with FRP tubes made with fibers oriented at ±45° showed low axial compressive strengths and high ultimate strains. HC-FCS columns with wet lay-up FRP tubes that had ±45° and 0° (hybrid FRP) exhibited high axial strengths and strains. The failure of the HC-FCS columns with hybrid FRP tubes consisted of two stages. The first stage was the rupture of the unidirectional FRP tube (outer tube), and the second stage was the reorientation of the oriented FRP tube exhibiting high axial strains.

Keywords

  • Bridge columns;
  • Precast columns;
  • Composite columns;
  • Hollow columns;
  • Axial loading

 

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