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Year : 2024 | Volume : | : | Page : –

Atul S. Kurzekar,

Uday P. Waghe,

P. B. Pande,

Tejas Nagose,

J.M. Raut,

Abhay Sharma,

Tejas Sonekar,

Sanika kohad,

Gayatri Tijare,

Manjeeri Nehare,

Research Scholar & Assistant Professor, Department. of Civil Engineering, Yeshwantrao Chavan College of Engineering, Nagpur, India
Professor, Department of Civil Engineering, Yeshwantrao Chavan College of Engineering, Nagpur, India
Asst. Professor, Department of Civil Engineering, Yeshwantrao Chavan College of Engineering, Nagpur, India
Student, Department of Civil Engineering, Yeshwantrao Chavan College of Engineering, Nagpur, India
Asst. Professor, Department of Civil Engineering, Yeshwantrao Chavan College of Engineering, Nagpur, India
Student, Department of Civil Engineering, Yeshwantrao Chavan College of Engineering, Nagpur, India
Student, Department of Civil Engineering, Yeshwantrao Chavan College of Engineering, Nagpur, India
Student, Department of Civil Engineering, Yeshwantrao Chavan College of Engineering, Nagpur, India
Student, Department of Civil Engineering, Yeshwantrao Chavan College of Engineering, Nagpur, India
Student, Department of Civil Engineering, Yeshwantrao Chavan College of Engineering, Nagpur, India

Abstract document.addEventListener(‘DOMContentLoaded’,function(){frmFrontForm.scrollToID(‘frm_container_abs_123774’);});Edit Abstract & Keyword

This research describes an experimental investigation that assesses the impact of polymer fiber and artificial fine aggregate on concrete properties. Polymer fiber, on the other hand, has the potential to function as a superplasticizer additive, which might lead to concrete’s superior elasticity, higher strength, and reduced rate of water absorption. Thus, an experimental inquiry was conducted to ascertain the ideal admixture dose and investigate the consequences of admixture overdosage. Also, this study highlights the potential for recycling in the construction industry by examining the physical properties of fine aggregate made from dismantled building components. This study’s main goals are to evaluate the quality and suitability of artificial fine aggregate made from demolished building materials for use in construction applications, to ascertain whether the fine aggregate’s physical properties meet the requirements for producing concrete, and to assess the sustainability and potential environmental benefits of using recycled fine aggregate. Thus, it was found in this study that adding polymer and artificial fine aggregate throughout the polymer concrete-forming process alters the concrete’s properties, increasing the concrete’s compressive strength. Aside from this, it has been discovered that polymers have enhanced the mechanical qualities of concrete, such as their flexural, and compressive strengths.

Keywords: Fine aggregates, Polymer Fiber, Construction Demolition Waste, Dismantled Building Components.

How to cite this article:
Atul S. Kurzekar, Uday P. Waghe, P. B. Pande, Tejas Nagose, J.M. Raut, Abhay Sharma, Tejas Sonekar, Sanika kohad, Gayatri Tijare, Manjeeri Nehare. Effect of Polymer Fiber on Concrete Made with Artificial Fine Aggregate from Demolished Buildings. Journal of Polymer and Composites. 2024; ():-.

How to cite this URL:
Atul S. Kurzekar, Uday P. Waghe, P. B. Pande, Tejas Nagose, J.M. Raut, Abhay Sharma, Tejas Sonekar, Sanika kohad, Gayatri Tijare, Manjeeri Nehare. Effect of Polymer Fiber on Concrete Made with Artificial Fine Aggregate from Demolished Buildings. Journal of Polymer and Composites. 2024; ():-. Available from: https://journals.stmjournals.com/jopc/article=2024/view=0

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References
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Ahead of Print Open Access Original Research

Journal of Polymer and Composites

ISSN: 2321–2810

Volume

Received	19/06/2024
Accepted	18/10/2024
Published	07/12/2024

163

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Effect of Polymer Fiber on Concrete Made with Artificial Fine Aggregate from Demolished Buildings