All Outputs (10)

Development of low carbon concrete and a machine learning integrated model tool for predicting strength and embodied carbon for lightweight concrete production (2025)
Thesis

The use of Ground Granulated Blast-furnace Slag (GGBS) as an alternative cement replacement material has shown good results in producing near green concrete. While GGBS exhibits good cementitious properties, concerns regarding slow strength developme... Read More about Development of low carbon concrete and a machine learning integrated model tool for predicting strength and embodied carbon for lightweight concrete production.

Applications of immersive technology in architecture, engineering, and construction - An introduction (2025)
Book Chapter

Globally, the architecture, engineering, and construction (AEC) sectors make an enormous contribution to the socio-economic development of nations, which is primarily evidenced by its creation/provision of the built environment. The sector has, howev... Read More about Applications of immersive technology in architecture, engineering, and construction - An introduction.

Current understanding and uncertainties associated with climate change and the impact on slope stability: A systematic literature review (2025)
Journal Article

This study provides a systematic literature review on the current understanding and uncertainties related to
climate change and its impact on slope stability, a critical issue in civil engineering and disaster management.
Climate change disrupts pr... Read More about Current understanding and uncertainties associated with climate change and the impact on slope stability: A systematic literature review.

Development of a learner model tool for predicting strength and embodied carbon for lightweight concrete production (2024)
Journal Article

The demand for sustainable concrete in meeting the net zero carbon target places a burden in optimizing concrete response to structural strength that satisfy acceptable embodied carbon. In most cases, a low carbon concrete is deficient in structural... Read More about Development of a learner model tool for predicting strength and embodied carbon for lightweight concrete production.

Development of low carbon concrete and prospective of geopolymer concrete using lightweight coarse aggregate and cement replacement materials (2024)
Journal Article

The use of Ground Granulated Blast-furnace Slag (GGBS) as an alternative cement replacement material in combination with conventional coarse aggregate have been successful in the production of near green concrete. Undoubtedly, GGBS has exhibited good... Read More about Development of low carbon concrete and prospective of geopolymer concrete using lightweight coarse aggregate and cement replacement materials.

Mapping and synthesizing the viability of cement replacement materials via a systematic review and meta-analysis (2023)
Journal Article

Supplementary cementitious materials (SCM) are alternative to the conventional cement and have been studied by so many authors owing to the high carbon content of cement. The use of SCM is significant in addressing challenges of carbon emission and i... Read More about Mapping and synthesizing the viability of cement replacement materials via a systematic review and meta-analysis.

Development of a Lytag-silica fume based lightweight concrete and corresponding design equation for pure bending (2023)
Journal Article

This study presents a novel Lytag-silica fume concrete (LSFC) for structural and other construction applications. The evaluation of compressive strength development and stress strain relationships of the LSFC light weight was carried out to determine... Read More about Development of a Lytag-silica fume based lightweight concrete and corresponding design equation for pure bending.

Evaluation of the structural performance of low carbon concrete (2022)
Journal Article

Evaluation of the effect of embodied carbon reduction using an optimized design section for a ground beam, use of supplementary cementitious materials, and replacement of normal aggregate with light weight aggregate on the mechanical properties of lo... Read More about Evaluation of the structural performance of low carbon concrete.

Optimisation of embodied carbon and compressive strength in low carbon concrete (2022)
Journal Article

To improve the prediction of compressive strength and embodied carbon of low carbon concrete using a program algorithm developed in MATLAB, 84 datasets of concrete mix raw materials were used. The influence of water, silica fume and ground granular b... Read More about Optimisation of embodied carbon and compressive strength in low carbon concrete.

Application of three nodded finite eleme (2018)
Journal Article

The convergence of numerical solution based on two nodded beam finite element require considerable number of
iterations and time; and is also plagued with shear locking. To address these deficiencies a three nodded beam element is
proposed in thi... Read More about Application of three nodded finite eleme.