Strain-hardening magnesium-silicate-hydrate composites (SHMSHC) utilizing reactive magnesia cement (MgO) and calcined clay (metakaolin)
This study demonstrated the feasibility of utilizing calcined clay (metakaolin) as a silica source for the development of polyethylene (PE) fiber-reinforced strain-hardening magnesium-silicate-hydrate composite (SHMSHC). The study also discussed the effects of variation in the Mg/Si ratio of the mix...
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sg-ntu-dr.10356-1805792024-10-18T15:34:16Z Strain-hardening magnesium-silicate-hydrate composites (SHMSHC) utilizing reactive magnesia cement (MgO) and calcined clay (metakaolin) Kumar, Dhanendra Sanalkumar, Krishnan U. Ambikakumari Yang, En-Hua School of Civil and Environmental Engineering Engineering Metakaolin Magnesium-silicate-hydrate This study demonstrated the feasibility of utilizing calcined clay (metakaolin) as a silica source for the development of polyethylene (PE) fiber-reinforced strain-hardening magnesium-silicate-hydrate composite (SHMSHC). The study also discussed the effects of variation in the Mg/Si ratio of the mixture when pure silica source (silica fume with SiO2 content >90 %) is replaced with metakaolin (SiO2 content ⁓ 51 %) on the mechanical performance of SHMSHC. A comprehensive mechanical characterization of SHMSHC at composite scale and fiber-matrix interaction effects was conducted. The damage characterization was carried out using residual crack width and spacing analysis. The chemical characterization of the MSH matrix (SHMSHC without fibers) was performed using XRD, TGA, and FTIR, and the microstructural investigation was done using FE-SEM. The MgO-metakaolin paste based SHMSHC showed compressive strength of 51.9 MPa, tensile strength of 5.0 MPa, and tensile strain capacity of 4.7 %, demonstrating the feasibility of calcined clay utilization in SHMSHC. The tensile strain capacity was reduced after the addition of aggregates in SHMSHC. The study demonstrated that the variation in the Mg/Si ratio significantly affects the toughness of the MSH matrix and fiber-matrix interaction characteristics, influencing the strain-hardening potential of SHMSHC. Ministry of Education (MOE) Submitted/Accepted version The authors acknowledge the financial support from the MOE NTUitive Gap Fund (NGF-2020-08-013) to conduct this research. 2024-10-14T02:15:51Z 2024-10-14T02:15:51Z 2024 Journal Article Kumar, D., Sanalkumar, K. U. A. & Yang, E. (2024). Strain-hardening magnesium-silicate-hydrate composites (SHMSHC) utilizing reactive magnesia cement (MgO) and calcined clay (metakaolin). Cement and Concrete Composites, 152, 105656-. https://dx.doi.org/10.1016/j.cemconcomp.2024.105656 0958-9465 https://hdl.handle.net/10356/180579 10.1016/j.cemconcomp.2024.105656 2-s2.0-85197591997 152 105656 en NGF-2020-08-013 Cement and Concrete Composites © 2024 Elsevier Ltd. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1016/j.cemconcomp.2024.105656. application/pdf |
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Engineering Metakaolin Magnesium-silicate-hydrate |
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Engineering Metakaolin Magnesium-silicate-hydrate Kumar, Dhanendra Sanalkumar, Krishnan U. Ambikakumari Yang, En-Hua Strain-hardening magnesium-silicate-hydrate composites (SHMSHC) utilizing reactive magnesia cement (MgO) and calcined clay (metakaolin) |
| description |
This study demonstrated the feasibility of utilizing calcined clay (metakaolin) as a silica source for the development of polyethylene (PE) fiber-reinforced strain-hardening magnesium-silicate-hydrate composite (SHMSHC). The study also discussed the effects of variation in the Mg/Si ratio of the mixture when pure silica source (silica fume with SiO2 content >90 %) is replaced with metakaolin (SiO2 content ⁓ 51 %) on the mechanical performance of SHMSHC. A comprehensive mechanical characterization of SHMSHC at composite scale and fiber-matrix interaction effects was conducted. The damage characterization was carried out using residual crack width and spacing analysis. The chemical characterization of the MSH matrix (SHMSHC without fibers) was performed using XRD, TGA, and FTIR, and the microstructural investigation was done using FE-SEM. The MgO-metakaolin paste based SHMSHC showed compressive strength of 51.9 MPa, tensile strength of 5.0 MPa, and tensile strain capacity of 4.7 %, demonstrating the feasibility of calcined clay utilization in SHMSHC. The tensile strain capacity was reduced after the addition of aggregates in SHMSHC. The study demonstrated that the variation in the Mg/Si ratio significantly affects the toughness of the MSH matrix and fiber-matrix interaction characteristics, influencing the strain-hardening potential of SHMSHC. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Kumar, Dhanendra Sanalkumar, Krishnan U. Ambikakumari Yang, En-Hua |
| format |
Article |
| author |
Kumar, Dhanendra Sanalkumar, Krishnan U. Ambikakumari Yang, En-Hua |
| author_sort |
Kumar, Dhanendra |
| title |
Strain-hardening magnesium-silicate-hydrate composites (SHMSHC) utilizing reactive magnesia cement (MgO) and calcined clay (metakaolin) |
| title_short |
Strain-hardening magnesium-silicate-hydrate composites (SHMSHC) utilizing reactive magnesia cement (MgO) and calcined clay (metakaolin) |
| title_full |
Strain-hardening magnesium-silicate-hydrate composites (SHMSHC) utilizing reactive magnesia cement (MgO) and calcined clay (metakaolin) |
| title_fullStr |
Strain-hardening magnesium-silicate-hydrate composites (SHMSHC) utilizing reactive magnesia cement (MgO) and calcined clay (metakaolin) |
| title_full_unstemmed |
Strain-hardening magnesium-silicate-hydrate composites (SHMSHC) utilizing reactive magnesia cement (MgO) and calcined clay (metakaolin) |
| title_sort |
strain-hardening magnesium-silicate-hydrate composites (shmshc) utilizing reactive magnesia cement (mgo) and calcined clay (metakaolin) |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/180579 |
| _version_ |
1814777743787687936 |