Investigation of non-uniform carbonation in strain-hardening magnesia composite (SHMC) and its impacts on fiber-matrix interface and fiber-bridging properties
Unlike Portland cement, the reactive magnesia cement (RMC) develops its strength via carbonation. Non-uniform microstructure and properties due to the varied carbonation degree across cross-section depth have thus been observed. However, the existing micromechanics design theory employs uniform mate...
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sg-ntu-dr.10356-1807972024-10-28T01:59:27Z Investigation of non-uniform carbonation in strain-hardening magnesia composite (SHMC) and its impacts on fiber-matrix interface and fiber-bridging properties Gu, Lei Kumar, Dhanendra Unluer, Cise Yang, En-Hua Monteiro, Paulo J. M. School of Civil and Environmental Engineering Engineering Non-uniform carbonation Reactive magnesia cement Unlike Portland cement, the reactive magnesia cement (RMC) develops its strength via carbonation. Non-uniform microstructure and properties due to the varied carbonation degree across cross-section depth have thus been observed. However, the existing micromechanics design theory employs uniform material properties (cementitious matrix and fiber-matrix interface characteristics) to design strain-hardening composites. This research investigated such non-uniform carbonation in a strain-hardening magnesia composite (SHMC) and its impacts on fiber-matrix interface and fiber-bridging properties. Results showed that mineral phase composition (of the cementitious matrix) and fiber-matrix interface properties across cross-section depth are highly non-uniform in SHMC due to varied carbonation degrees. The outer layer exhibited a much higher carbonation degree with significantly stronger fiber-matrix friction, while the inner core showed negligible carbonation with distinct fiber-matrix properties. Insights gained from the micro-scale investigation were used to calculate the fiber-bridging constitutive law of SHMC with non-uniform carbonation across cross-section depth and to assess its strain-hardening performance. This investigation highlights the importance and necessity of considering non-uniform carbonation in the modeling and design of SHMC. The study presents a framework for the consideration of non-uniform micromechanical parameters in the design of strain-hardening cementitious composites. National Research Foundation (NRF) This research was funded by the Republic of Singapore’s National Research Foundation (NRF) through a grant to the Berkeley Education Alliance for Research in Singapore (BEARS) for the Singapore-Berkeley Building Efficiency and Sustainability in the Tropics (SinBerBEST) Program. 2024-10-28T01:59:27Z 2024-10-28T01:59:27Z 2024 Journal Article Gu, L., Kumar, D., Unluer, C., Yang, E. & Monteiro, P. J. M. (2024). Investigation of non-uniform carbonation in strain-hardening magnesia composite (SHMC) and its impacts on fiber-matrix interface and fiber-bridging properties. Cement and Concrete Composites, 153, 105726-. https://dx.doi.org/10.1016/j.cemconcomp.2024.105726 0958-9465 https://hdl.handle.net/10356/180797 10.1016/j.cemconcomp.2024.105726 2-s2.0-85202878513 153 105726 en SinBerBEST Cement and Concrete Composites © 2024 Elsevier Ltd. All rights are reserved, including those for text and data mining, AI training, and similar technologies. |
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Engineering Non-uniform carbonation Reactive magnesia cement |
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Engineering Non-uniform carbonation Reactive magnesia cement Gu, Lei Kumar, Dhanendra Unluer, Cise Yang, En-Hua Monteiro, Paulo J. M. Investigation of non-uniform carbonation in strain-hardening magnesia composite (SHMC) and its impacts on fiber-matrix interface and fiber-bridging properties |
| description |
Unlike Portland cement, the reactive magnesia cement (RMC) develops its strength via carbonation. Non-uniform microstructure and properties due to the varied carbonation degree across cross-section depth have thus been observed. However, the existing micromechanics design theory employs uniform material properties (cementitious matrix and fiber-matrix interface characteristics) to design strain-hardening composites. This research investigated such non-uniform carbonation in a strain-hardening magnesia composite (SHMC) and its impacts on fiber-matrix interface and fiber-bridging properties. Results showed that mineral phase composition (of the cementitious matrix) and fiber-matrix interface properties across cross-section depth are highly non-uniform in SHMC due to varied carbonation degrees. The outer layer exhibited a much higher carbonation degree with significantly stronger fiber-matrix friction, while the inner core showed negligible carbonation with distinct fiber-matrix properties. Insights gained from the micro-scale investigation were used to calculate the fiber-bridging constitutive law of SHMC with non-uniform carbonation across cross-section depth and to assess its strain-hardening performance. This investigation highlights the importance and necessity of considering non-uniform carbonation in the modeling and design of SHMC. The study presents a framework for the consideration of non-uniform micromechanical parameters in the design of strain-hardening cementitious composites. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Gu, Lei Kumar, Dhanendra Unluer, Cise Yang, En-Hua Monteiro, Paulo J. M. |
| format |
Article |
| author |
Gu, Lei Kumar, Dhanendra Unluer, Cise Yang, En-Hua Monteiro, Paulo J. M. |
| author_sort |
Gu, Lei |
| title |
Investigation of non-uniform carbonation in strain-hardening magnesia composite (SHMC) and its impacts on fiber-matrix interface and fiber-bridging properties |
| title_short |
Investigation of non-uniform carbonation in strain-hardening magnesia composite (SHMC) and its impacts on fiber-matrix interface and fiber-bridging properties |
| title_full |
Investigation of non-uniform carbonation in strain-hardening magnesia composite (SHMC) and its impacts on fiber-matrix interface and fiber-bridging properties |
| title_fullStr |
Investigation of non-uniform carbonation in strain-hardening magnesia composite (SHMC) and its impacts on fiber-matrix interface and fiber-bridging properties |
| title_full_unstemmed |
Investigation of non-uniform carbonation in strain-hardening magnesia composite (SHMC) and its impacts on fiber-matrix interface and fiber-bridging properties |
| title_sort |
investigation of non-uniform carbonation in strain-hardening magnesia composite (shmc) and its impacts on fiber-matrix interface and fiber-bridging properties |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/180797 |
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1814777762695610368 |