Thermal characteristics of structural lightweight concrete


  • Yeong Huei Lee Department of Civil and Construction Engineering, Faculty of Engineering and Science, Curtin University Malaysia, CDT250, Miri, Sarawak, 98009, Malaysia
  • Yee Yong Lee Department of Civil Engineering, Faculty of Engineering, Universities Malaysia Sarawak, Jalan Datuk Mohammad Musa, Kota Samarahan, Sarawak, 94300, Malaysia
  • Shi Yee Wong School of Built Environment, University of Technology Sarawak, No. 1, Jalan Universiti, Sibu, Sarawak, 96000, Malaysia



[1] Stewart, I.D., Oke, T.R., Bechtel, B., et al., 2015. Generating WUDAPT’s Specific Scale—Dependent Urban Modeling and Activity Pa-rameters: Collection of Level 1 and Level 2 Data [Internet]. ICUC9, Toulouse, France (20-24 July) 5(4), 1-4. Available from:

[2] Lee, Y.H., Chua, N., Amran, M., et al., 2021. Thermal performance of structural lightweight concrete composites for potential energy saving. Crystals. 11, 461. DOI:

[3] Tan, W.L., Lee, Y.H., Tan, C.S., et al., 2022. Mechanical properties and fracture prediction of concretes containing oil palm shell and expand-ed clay for full replacement of conventional ag-gregates. Jurnal Teknologi. 84(2), 171-181. DOI:

[4] Lee, Y.H., Amran, M., Lee, Y.Y., et al., 2021. Thermal behavior and energy efficiency of mod-ified concretes in the tropical climate: A system-ic review. Sustainability. 13, 11957. DOI:


How to Cite

Lee, Y. H., Lee, Y. Y., & Wong, S. Y. (2023). Thermal characteristics of structural lightweight concrete. Journal of Architectural Environment & Structural Engineering Research, 6(1), 14–16.


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