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All Outputs (6)

Eco-friendly 3D Printing Mortar with Low Cement Content: Investigation on Printability and Mechanical Properties (2024)
Journal Article
Sukontasukkul, P., Komkham, S., Jamnam, S., Zhang, H., Fujikake, K., Puttiwongrak, A., & Hansapinyo, C. (2024). Eco-friendly 3D Printing Mortar with Low Cement Content: Investigation on Printability and Mechanical Properties. Civil Engineering Journal, 10(3), https://doi.org/10.28991/CEJ-2024-010-03-010

The conventional approach to achieving optimal printability and buildability in 3D printing mortar relies heavily on cement, which is both costly and environmentally detrimental due to substantial carbon emissions from its production. This study aims... Read More about Eco-friendly 3D Printing Mortar with Low Cement Content: Investigation on Printability and Mechanical Properties.

Role of Slag Replacement on Strength Enhancement of One-Part High-Calcium Fly Ash Geopolymer (2024)
Journal Article
Intarabut, D., Sukontasukkul, P., Phoo-ngernkham, T., Hanjitsuwan, S., Sata, V., Chumpol, P., Sae-Long, W., Zhang, H., & Chindaprasirt, P. (in press). Role of Slag Replacement on Strength Enhancement of One-Part High-Calcium Fly Ash Geopolymer. Open Civil Engineering Journal,

This paper reports the effect of slag (SL) replacement and water-to-binder (w/b) ratio on properties of one-part geopolymer derived from high-calcium fly ash (FA) and sodium silicate powder (NP). The FA was replaced by SL at the rates of 20% and 40%,... Read More about Role of Slag Replacement on Strength Enhancement of One-Part High-Calcium Fly Ash Geopolymer.

Whole‐Life Embodied Carbon Reduction Strategies in UK Buildings: A Comprehensive Analysis (2024)
Journal Article
Keyhani, M., Bahadori‐Jahromi, A., Fu, C., Godfrey, P., & Zhang, H. (online). Whole‐Life Embodied Carbon Reduction Strategies in UK Buildings: A Comprehensive Analysis. Energy Science and Engineering, https://doi.org/10.1002/ese3.1958

This paper presents a detailed analysis of embodied carbon (EC) in various case studies using life cycle assessment (LCA) methodology. Through comprehensive assessments, including modules A, B and C, the study evaluates EC across different stages of... Read More about Whole‐Life Embodied Carbon Reduction Strategies in UK Buildings: A Comprehensive Analysis.

A preliminary study on bamboo-timber composite columns under axial compression (2024)
Journal Article
Deng, Y., Xia, W., Yang, S., Ni, M., Huo, G., Zhang, H., Wong, S. H. F., Sukontasukkul, P., Hansapinyo, C., Zhang, Y., Thepvpngsa, K., Seixas, M., & de Almeida Melo Filho, J. (online). A preliminary study on bamboo-timber composite columns under axial compression. International Wood Products Journal, https://doi.org/10.1177/20426445241288926

Bamboo–timber composite columns hold significant promise as bio-based structural elements. However, research in this area remains limited, especially concerning modern buckling analysis methods that incorporate bio-based constitutive models of engine... Read More about A preliminary study on bamboo-timber composite columns under axial compression.

Numerical investigations into the comparison of hydrogen and gas mixtures storage within salt caverns (2024)
Journal Article
Wallace, R. L., Cai, Z., Zhang, H., & Guo, C. (2024). Numerical investigations into the comparison of hydrogen and gas mixtures storage within salt caverns. Energy, 311, Article 133369. https://doi.org/10.1016/j.energy.2024.133369

Salt caverns, long used for natural gas storage to manage peak loads, are being considered for hydrogen storage as part of the shift towards greener fuels. This transition necessitates re-evaluating heat and fluid transport to ensure the suitability... Read More about Numerical investigations into the comparison of hydrogen and gas mixtures storage within salt caverns.

Use of buffer treatment to utilize local non-alkali tolerant bacteria in microbial induced calcium carbonate sedimentation in concrete crack repair (2024)
Journal Article
Pianfuengfoo, S., Kongtunjanphuk, S., Zhang, H., & Sukontasukkul, P. (2024). Use of buffer treatment to utilize local non-alkali tolerant bacteria in microbial induced calcium carbonate sedimentation in concrete crack repair. Heliyon, 10(4), Article e26776. https://doi.org/10.1016/j.heliyon.2024.e26776

Concrete often suffers cracks due to its low tensile strength. The repair process can vary ranging from surface coating, grouting, and strengthening. Microbial induced calcium carbonate sedimentation process (MICP) is a process of utilizing non-patho... Read More about Use of buffer treatment to utilize local non-alkali tolerant bacteria in microbial induced calcium carbonate sedimentation in concrete crack repair.