A Review on Mechanical Properties of Sustainable Concrete by using Rise husk ash and hydrated lime

Srinath, Doddipati; Ramesh, Gomasa

doi:10.54105/ijde.c8016.021322

IJDE

2022

DOI: 10.54105/ijde.c8016.021322

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A Review on Mechanical Properties of Sustainable Concrete by using Rise husk ash and hydrated lime

Doddipati Srinath¹,

Gomasa Ramesh²

Abstract: Concrete is a commonly used construction material all over the globe. Environmentally conscious construction is essential in today’s society. By using the proper materials, we may achieve long-term construction. RHA is often used as a cementitious product replacement, and in such cases, we may mix RHA with hydrated lime. Many research has been conducted on RHA, and they all indicate that it outperforms other kinds of concrete. The importance of rice husk ash in construction and its applications are the subject… Show more

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2024

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Cited by 2 publications

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Weldability Study and Improvement in Weld Strength of Aluminium Alloy

Biswas

2024

IJSCE

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This paper explores the weldability of 6063 T6 Aluminium Alloy using Response Surface Methodology (RSM) as the Design of Experiment. The study aims to investigate the influence of various welding parameters like Peak Current and Pulse-on-time on the quality of welds on the aluminium alloy and optimize these parameters to achieve desirable weld characteristics. The research utilizes RSM to develop mathematical models that can predict the weld quality based on the welding parameters. The findings of this study can contribute to enhancing the understanding of aluminium alloy weldability and provide insights for optimizing welding processes in industrial applications.

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Weldability Study and Improvement in Weld Strength of Aluminium Alloy

Biswas

2024

IJSCE

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Effects of Rice Husk Ash Addition on the Refractory Properties of Owo Clay

Onyia,

Idenyi

2024

IJAE

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This research investigates the effect of rice husk ash (RHA) addition on the refractory properties of Owo clay. The clay is blended with RHA in increments of 5 Percent for each experimental run. The blended material undergoes exposure to temperatures ranging from normal crucible liner conditions to 1200 Degree C, followed by characterization for shrinkage, porosity, density, water absorption, and modulus of rupture. Results indicate that total shrinkage increases with RHA content throughout the experimental phase but stability was observed at 10 Percent RHA. Porosity decreases with increasing RHA content, with the 10 Percent RHA blend showing the most consistent decrease. RHA enhances compressive strength, reaching a peak of 24 Newtons per square millimetre for 5 Percent RHA at 1200 Degree C, and a minimum of 10 Newtons per square millimetre for 5 Percent RHA at 900 Degree C. Bulk density increases with decreasing porosity as temperature rises. Overall, the 90 Percent 10 Percent Owo clay RHA Clay blend demonstrates the most suitable properties for industrial applications.

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A Review on Mechanical Properties of Sustainable Concrete by using Rise husk ash and hydrated lime

Cited by 2 publications

References 32 publications

Weldability Study and Improvement in Weld Strength of Aluminium Alloy

Weldability Study and Improvement in Weld Strength of Aluminium Alloy

Effects of Rice Husk Ash Addition on the Refractory Properties of Owo Clay

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