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Original Articles

Axial stress–strain behaviour of bamboo composite tube-confined recycled aggregate concrete with different aggregate replacement ratios

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Pages 143-159 | Received 02 Mar 2023, Accepted 21 Jun 2023, Published online: 06 Jul 2023

References

  • ASTM D3039, 2008. Standard test method for tensile properties of polymer matrix composite materials. ASTM International, West Conshohocken, PA.
  • Cao, Q., et al., 2023. Experimental investigations on the bearing properties of bamboo scrimber joints by a bolted bamboo-steel-bamboo connection. Wood Material Science & Engineering, 1–19. doi:10.1080/17480272.2023.2193816
  • Castanheira, D., et al., 2022. Compressive behaviour of double skin sections with stainless steel outer tubes and recycled aggregate concrete. Structures, 41, 750–763.
  • Chang, Y., et al., 2022. Different influence of replacement ratio of recycled aggregate on uniaxial stress–strain relationship for recycled concrete with different concrete strengths. Structures, 42, 284–308.
  • Chen, G., et al., 2016. Behavior of CFRP-confined recycled aggregate concrete under axial compression. Construction and Building Materials, 111, 85–97.
  • Chen, G., et al., 2018. Compressive behavior of CFRP-confined recycled aggregate concrete in different-sized circular sections. Journal of Composites for Construction, 22(4): 04018021.
  • Chen, S., et al., 2022a. Experimental investigation on the flexural behavior of laminated bamboo–timber I-beams. Journal of Building Engineering, 46, 103651.
  • Chen, S., et al., 2022b. Combinatorial design and flexural behavior of laminated bamboo–timber composite beams. Thin-Walled Structures, 181, 109993.
  • Chen, G., et al., 2022. Structural performance of laminated-bamboo lumber nailed connection. Wood Material Science & Engineering, 17 (6), 989–1001.
  • Chen, S., et al., 2023. Mechanical behavior of laminated bamboo–timber composite columns under axial compression. Archives of Civil and Mechanical Engineering, 23 (2), 72.
  • Cheng, X., et al., 2021. Compressive behavior of bamboo sheet twining tube-confined concrete columns. Polymers, 13(23): 4124.
  • Dong, H., et al., 2021. Seismic behavior of full-scale square high-strength RACFST columns. Structures, 34, 2600–2616.
  • Fahmy, M.F. and Wu, Z., 2010. Evaluating and proposing models of circular concrete columns confined with different FRP composites. Composites Part B: Engineering, 41, 199–213.
  • Fayed, S. and Mansour, W., 2023. Structural performance of seasand recycled aggregate concrete filled solid/hollow aluminum tubular columns: an experimental work. Structures, 47, 1323–1340.
  • Guo, D. and Huang, L., 2019. The state of the art of material flow analysis research based on construction and demolition waste recycling and disposal. Buildings, 9(10): 207.
  • Hain, A., Motaref, S., and Zaghi, A., 2019. Influence of fiber orientation and shell thickness on the axial compressive behavior of concrete-filled fiber-reinforced polymer tubes. Construction and Building Materials, 220, 353–363.
  • Jiang, T. and Teng, J., 2007. Analysis-oriented stress–strain models for FRP-confined concrete. Engineering Structures, 29, 2968–2986.
  • Kou, Y., Tian, L., and Jin, B., 2022. Axial compressive behavior of bamboo slices twining tube-confined concrete. European Journal of Wood and Wood Products, 80, 115–129.
  • Kumar, D. and Mandal, A., 2022. Review on manufacturing and fundamental aspects of laminated bamboo products for structural applications. Construction and Building Materials, 348, 128691.
  • Li, P., et al., 2020. Ductility evaluation of damaged recycled aggregate concrete columns repaired with carbon fiber-reinforced polymer and large rupture strain FRP. Frontiers in Materials, 7: 568036.
  • Liang, J., et al., 2021. Axial compressive behavior of recycled aggregate concrete-filled square steel tube stub columns strengthened by CFRP. Structures, 29, 1874–1881.
  • Liu, B., Feng, C., and Deng, Z., 2019. Shear behavior of three types of recycled aggregate concrete. Construction and Building Materials, 217, 557–572.
  • Lv, H., et al., 2021. Examining construction waste management policies in mainland China for potential performance improvements. Clean Technologies and Environmental Policy, 23, 445–462.
  • Miao, K., et al., 2023a. Eccentric compression behavior of concrete-filled steel tube columns strengthened by CFRP/steel strip. Engineering Structures, 287, 116191.
  • Miao, K., et al., 2023b. Experimental study on concrete-filled steel tube columns with inner distributed seawater and sea sand concrete-filled fiber-reinforced polymer tubes under axial compression. Composite Structures, 320: 117181.
  • Nie, Y., et al., 2022a. Experimental investigation of full-culm bamboo tubes strengthened by filled concrete and bamboo sheets under axial compression. Journal of Building Engineering, 45: 103548.
  • Nie, Y., et al., 2022b. Compressive performance of bamboo sheet twining tube-confined recycled aggregate concrete columns. Construction and Building Materials, 323, 1–19.
  • Nunes, K.R.A. and Mahler, C.F., 2020. Comparison of construction and demolition waste management between Brazil, European Union and USA. Waste Management & Research: The Journal for a Sustainable Circular Economy, 38, 415–422.
  • Ozbakkaloglu, T., Gholampour, A., and Xie, T., 2018. Mechanical and durability properties of recycled aggregate concrete: Effect of recycled aggregate properties and content. Journal of Materials in Civil Engineering, 30(2): 04017275.
  • Ozbakkaloglu, T. and Lim, J., 2013. Axial compressive behavior of FRP-confined concrete: experimental test database and a new design-oriented model. Composites Part B: Engineering, 55, 607–634.
  • Shi, C., et al., 2016. Performance enhancement of recycled concrete aggregate – a review. Journal of Cleaner Production, 112, 466–472.
  • Spoelstra, M. and Monti, G., 1999. FRP-confined concrete model. Journal of Composites for Construction, 3, 62–65.
  • Tam, V., Tao, Z., and Evangelista, A., 2021. Performance of recycled aggregate concrete filled steel tubular (RACFST) stub columns with expansive agent. Construction and Building Materials, 272: 121627.
  • Tian, L., Kou, Y., and Hao, J., 2019. Axial compressive behaviour of sprayed composite mortar–original bamboo composite columns. Construction and Building Materials, 215, 726–736.
  • Wang, Q., et al., 2020. An empirical study on waste generation rates at different stages of construction projects in China. Waste Management & Research: The Journal for a Sustainable Circular Economy, 38, 433–443.
  • Wei, Y., et al., 2020a. Experimental study on the creep behavior of recombinant bamboo. Journal of Renewable Materials, 8, 251–273.
  • Wei, Y., et al., 2020b. Stress–strain behavior and model of bamboo scrimber under cyclic axial compression. Engineering Structures, 209, 110279.
  • Wei, Y., et al., 2021. Structural behavior of prefabricated bamboo-lightweight concrete composite beams with perforated steel plate connectors. Archives of Civil and Mechanical Engineering, 21, 1–21.
  • Wei, Y., et al., 2022a. Mechanical response of timber beams strengthened with variable amounts of CFRP and bamboo scrimber layers. Journal of Composites for Construction, 26 (4), 04022038.
  • Wei, Y., et al., 2022b. Mechanical behavior of foam-filled bamboo composite tubes under axial compression. Polymers, 14 (10), 2006.
  • Wei, Y., et al., 2022c. Mechanical behavior of bamboo composite tubes under axial compression. Construction and Building Materials, 339, 127681.
  • Wu, F., et al., 2023a. Experimental study of bamboo scrimber-filled steel tube columns under axial compression. Engineering Structures, 280, 115669.
  • Wu, F., et al., 2023b. Confinement effectiveness of bamboo scrimber-filled steel tube columns under axial compression. Journal of Building Engineering, 68, 106157.
  • Wu, Y. and Wei, Y., 2015. General stress–strain model for steel- and FRP-confined concrete. Journal of Composites for Construction, 19(4): 04014069.
  • Xiao, J., et al., 2012. An overview of study on recycled aggregate concrete in China (1996–2011). Construction and Building Materials, 31, 364–383.
  • Xu, J., et al., 2017. Recycled aggregate concrete in FRP-confined columns: a review of experimental results. Composite Structures, 174, 277–291.
  • Youssef, M., Feng, M., and Mosallam, A., 2007. Stress–strain model for concrete confined by FRP composites. Composites Part B: Engineering, 38, 614–628.
  • Zeng, J., et al., 2020. FRP-confined recycled glass aggregate concrete: concept and axial compressive behavior. Journal of Building Engineering, 30: 101288.
  • Zhang, F., et al., 2022. Characterization of radial bamboo slivers from different height positions and their effect on the mechanical properties of bamboo-wood composite container flooring. Wood Material Science & Engineering, 17 (6), 905–910.
  • Zhao, J., et al., 2020. Behaviour of FRP-confined compound concrete-filled circular thin steel tubes under axial compression. Advances in Structural Engineering, 23, 1772–1784.
  • Zhao, M., et al., 2021. Response and modeling of steel tubes filled with recycled fine and coarse aggregate concretes under long-term loading. Journal of Structural Engineering, 147(11): 04021166.
  • Zhou, J., Lin, G., and Teng, J., 2021. Stress–strain behavior of FRP-confined concrete containing recycled concrete lumps. Construction and Building Materials, 267: 120915.

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