C. H. Tay scite author profile

C. H. Tay

4Publications

12Citation Statements Received

179Citation Statements Given

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245

175

Affiliations

Universiti Putra Malaysia, Universiti Malaysia Perlis

Publications

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Mechanical Strength of Graphene Reinforced Geopolymer Nanocomposites: A Review

Tay

Mazlan

2021

Front. Mater.

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The emergence of high-strength graphene marks a new milestone in the material science field. With only a small percentage inclusion into the matrix system, this organic nanoparticle could tremendously improve the strength in vast arrays of composites. At the same time, there is a growing interest in using the low-cost, lightweight, and high early strength geopolymer as the new binder for concrete. Compared to the traditional Ordinary Portland Cement (OPC), geopolymer emits 80% less CO2 during its production while exerting similar strength. Thus, the geopolymer has the potential to commercialize as new and green concrete. Geopolymer is a mixture of aluminosilicate powders and alkaline solutions. When incorporated with nano-sized graphene, the material forms a composite known as Graphene Reinforced Geopolymer Nanocomposite (GRGN). The addition of graphene enhances the strength of geopolymer, which can further improve its competitiveness. However, this depends on several factors, including the types of graphene, the surface modification of graphene, and the concentration of alkaline solutions. Generally, the presence of graphene alters the porous structure of geopolymer into a substantially filled porous structure, thus increasing compressive strength and flexural strength. On the other hand, Graphene Oxide (GO) undergoes a chemical reduction in the alkaline solution, producing epoxy functional groups. The chemical treatment results in two conditions which are weak interaction between graphene and geopolymer matrix, and better graphene dispersibility in geopolymer matrix. This review also highlights the analytical modelling aspect of GRGN. The dissolution of Si(OH)4 and Al(OH)4- from the aluminosilicate source was consistent with experimental work and analytical modeling, while the dissolution of Si–OH on the surface-modified graphene indicated otherwise. Therefore, this paper will provide an insightful review of the GRGN mechanical properties.

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Mechanical performance of hybrid glass/kenaf epoxy composite filled with organomodified nanoclay

Tay

Mazlan

Sultan

et al. 2021

Journal of Materials Research and Technology

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Nanocellulose reinforced zeolite based geopolymer concrete: Density analysis through response surface methodology

Tay

Mazlan

Wayayok

et al. 2022

Materials Today: Proceedings

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Correlation between Flexural and Compressive Properties of Kenaf/Epoxy Composite filled with Mesoporous Silica

Tay¹,

Mazlan²

2019

ijrte

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 Abstract: This research investigates the relationship between flexural and compressive properties of kenaf/epoxy composite filled with mesoporous silica, through regression analysis. EpoxAmite® 100 Epoxy and 103 Hardener were used as matrix, modified by constant volume of silicon, different percentage of mesoporous silica, and reinforced with constant volume of kenaf mat. Three pointer bend fixture and compression test were conducted and the data were used for regression analysis. Flexural test revealed that inclusion of 5vol% mesoporous silica and 3vol% silicon into 7.2Vol% K/Ep resulted in the highest flexural strength, while the highest flexural modulus is achieved at 3vol% SiaK/Ep. Compressive strength and compressive modulus are both the highest at 1vol% SiaK/Ep-Si. Good correlations were established when kenaf is used as single independent variable to predict compressive modulus of the composites produced. On the other hand, poor correlation is obtained when silicon and mesoporous silica are used as the two independent variables in predicting flexural strength, flexural modulus, compressive strength and compressive modulus. When kenaf is included as the third independent variable (together with silicon and mesoporous silica) in predicting the four results, correlation is found to improve tremendously. However, all four multivariate regression relationships established between flexural and compressive data resultsin an average value ranging from 0.5 to 0.6.

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C. H. Tay

Mechanical Strength of Graphene Reinforced Geopolymer Nanocomposites: A Review

Mechanical performance of hybrid glass/kenaf epoxy composite filled with organomodified nanoclay

Nanocellulose reinforced zeolite based geopolymer concrete: Density analysis through response surface methodology

Correlation between Flexural and Compressive Properties of Kenaf/Epoxy Composite filled with Mesoporous Silica

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