Strength of Concrete-Filled Plastic Tube Stub Columns Using a Normalized Stiffness Approach

This research documents the results of tests on stub columns tested under repeated monotonic compression load. Two unplasticized polyvinyl chloride (uPVC) tubes were filled with normal and high strength concrete. From each type of concrete three control specimens were also cast for comparison purposes. The experimental test results show that the unconfined specimens were crushed in the first cycle of loading in contrast to the confined specimens which continued to resist the applied load after several cycles of repeated loading. Furthermore, by using the polymeric tube, the failure of concrete core switches from sudden explosive failure to non-brittle failure with the composite specimen undergoing large progressive deformation in each cycle of loading. For each cycle of loading, the material damage in the composite system was evaluated in terms of the deformations in both the lateral and axial directions.

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Recent developments in Polyvinyl-chloride tube filled with concrete

Abdulla¹

2021

CEBACOM

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This study highlights the recent developments in the use of Polyvinyl-chloride (PVC) in the construction technology. The PVC is a very versatile plastic, resistant to fire (prevents the spread of fire) wear and rupture, with excellent anti-chemicals and anti-corrosion characteristics. The material could be produced with plasticizers (PVC, more flexible) or without (uPVC, more rigid). The thermoplastic polymer is the most widely used polymer for structural concrete applications; either as a simple tube for pour-in concrete or the more complicated Stay-in-place formwork (SIPF) systems. In this study, the structural performance of uPVC-encased concrete (uPEC) used as a compression member is reviewed, for the period start-end of 2020, with emphases on the resistance of these members to the applied axial load. The study is extended to cover the seismic behavior of these confining devices when used in combination with the brittle concrete. Several strength models have been proposed for evaluating the bearing capacity of uPEC columns under monotonic axial compression load. Most of these models are based on limited number of test results and might yield unsatisfactory predictions. On the other hand, the number of models for predicting the strain at peak stress are limited. The main features of these models were reviewed and recommendations presented for future research.

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Strength of Concrete-Filled Plastic Tube Stub Columns Using a Normalized Stiffness Approach

Cited by 3 publications

References 26 publications

Strength models for uPVC-confined concrete

Strength models for uPVC-confined concrete

Energy Absorption Capacity of uPVC-Confined Concrete

Recent developments in Polyvinyl-chloride tube filled with concrete

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