Krit Chaimoon scite author profile

This research focuses on evaluating the feasibility of utilizing bottom ash from coal burning power plants as a fine aggregate in cellular concrete with various foam contents. Flows of all mixtures were controlled within 45 ± 5% and used foam content at 30%, 40%, 50%, 60%, and 70% by volume of mixture. Bottom ash from Mae Moh power plant in Thailand was used to replace river sand at the rates of 0%, 25%, 50%, 75%, and 100% by volume of sand. Compressive strength, water absorption, and density of cellular concretes were determined at the ages of 7, 14, and 28 days. Nonlinear regression technique was developed to construct the mathematical models for predicting the compressive strength, water absorption, and density of cellular concrete. The results revealed that the density of cellular concrete decreased while the water absorption increased with an increase in replacement level of bottom ash. From the experimental results, it can be concluded that bottom ash can be used as fine aggregate in the cellular concrete. In addition, the nonlinear regression models give very high degree of accuracy (R2>0.99).

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Crack propagation due to time-dependent creep in quasi-brittle materials under sustained loading

Chaimoon¹,

Attard²,

Tin‐Loi³

2008

Computer Methods in Applied Mechanics and Engineering

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An anisotropic hyperelastic model with an application to soft tissues

Chaimoon

Chindaprasirt

2019

European Journal of Mechanics - A/Solids

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Krit Chaimoon

Modeling of unreinforced masonry walls under shear and compression

Experimental and numerical investigation of masonry under three-point bending (in-plane)

Influence of Bottom Ash Replacements as Fine Aggregate on the Property of Cellular Concrete with Various Foam Contents

Crack propagation due to time-dependent creep in quasi-brittle materials under sustained loading

An anisotropic hyperelastic model with an application to soft tissues

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