Incorporation of Steel Fibers to Enhance Performance of Sustainable Concrete Made with Waste Brick Aggregates: Experimental and Regression-Based Approaches-Reference-Cited by-同舟云学术

Incorporation of Steel Fibers to Enhance Performance of Sustainable Concrete Made with Waste Brick Aggregates: Experimental and Regression-Based Approaches

Published:2023-11-10 Issue:11 Volume:13 Page:2820
ISSN:2075-5309
Container-title:Buildings
language:en
Short-container-title:Buildings

Author:

Yooprasertchai Ekkachai¹^ORCID,Bahrami Alireza²^ORCID,Saingam Panumas³^ORCID,Hussain Qudeer⁴,Ejaz Ali⁵,Joyklad Panuwat⁶^ORCID

Affiliation:

1. Construction Innovations and Future Infrastructure Research Center, Department of Civil Engineering, Faculty of Engineering, King Mongkut’s University of Technology Thonburi, Bangkok 10140, Thailand

2. Department of Building Engineering, Energy Systems and Sustainability Science, Faculty of Engineering and Sustainable Development, University of Gävle, 801 76 Gävle, Sweden

3. Department of Civil Engineering, School of Engineering, King Mongkut’s Institute of Technology Ladkrabang, Bangkok 10520, Thailand

4. Dr. House Consultants Co., Ltd., Bangkok 10330, Thailand

5. National Institute of Transportation, National University of Sciences and Technology, Islamabad 44000, Pakistan

6. Department of Civil and Environmental Engineering, Faculty of Engineering, Srinakharinwirot University, Nakhonnayok 26120, Thailand

Abstract

Each year, an enormous amount of construction waste is produced worldwide. The reuse of construction waste in construction works is a sustainable solution. The present research work utilized recycled brick aggregates in the production of concrete. The resulting concrete exhibited substandard splitting tensile, flexural, and compressive properties. Steel fibers were used to improve these substandard properties of recycled brick aggregate concrete. The volume fractions of 1%, 2%, and 3% for steel fibers were mixed in concrete, whereas recycled brick aggregates were obtained from solid fired-clay bricks, hollow fired-clay bricks, and cement–clay interlocking bricks. The compressive strength was enhanced by up to 35.53% and 66.67% for natural and recycled brick aggregate concrete, respectively. Strengthened flexural specimens demonstrated up to 8765.69% increase in the energy dissipation. Specimens strengthened with steel fibers showed substantially improved splitting tensile, flexural, and compressive responses. Separate equations were proposed to predict the peak compressive strength, strain at peak compressive strength, elastic modulus, and post-peak modulus of recycled brick aggregate concrete. The proposed regression equations were utilized in combination with an existing compressive stress–strain model. A close agreement was observed between experimental and predicted compressive stress–strain curves of recycled brick aggregate concrete.

Funder

Department of Civil Engineering, King Mongkut’s University of Technology Thonburi

Publisher

MDPI AG

Subject

Building and Construction,Civil and Structural Engineering,Architecture

Link

https://www.mdpi.com/2075-5309/13/11/2820/pdf

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