Open Access

Year : 2024 | Volume : | : | Page : –

Abdul Ghaffar Noor Mohd

Divya Prakash

Research Scholar Department of Civil Engineering, Poornima UniversityJaipur Rajasthan India
Associate Professor Department of Civil Engineering, Poornima University Jaipur Rajasthan India

Abstract

Poisson’s ratio characterizes a material’s deformation under load, offering insights into its structural behavior. Yet, there’s a lack of research on SDSFC’s Poisson’s ratio, hindering its widespread adoption. This study aims to fill this gap by investigating SDSFC’s Poisson’s ratio under various curing conditions and material compositions. By analyzing how curing methods and material components influence Poisson’s ratio, we can better comprehend SDSFC’s behavior under different circumstances. Additionally, we’ll explore how factors like aggregate type and moisture content affect Poisson’s ratio, providing valuable insights for optimizing SDSFC’s performance in real-world applications. By shedding light on SDSFC’s mechanical properties, this research aims to facilitate its broader acceptance and utilization in construction projects, contributing to more resilient and sustainable infrastructure. In the construction industry, the demand for durable and sustainable materials is ever-present. Stone dust steel fiber concrete (SDSFC) has emerged as a potential solution, combining the strength of steel fibers with the availability of stone dust aggregates. However, understanding its mechanical properties, particularly its Poisson’s ratio, remains essential for its effective use.

Keywords: Stone Dust Steel Fiber Concrete, Poisson’s Ratio, Mechanical Properties, Curing conditions, Steel Fiber.

How to cite this article: Abdul Ghaffar Noor Mohd, Divya Prakash. Poisson’s Ratio in Stone Dust and Steel Fiber Reinforced Composite Concrete: A Theoretical Approach. Journal of Polymer and Composites. 2024; ():-.

How to cite this URL: Abdul Ghaffar Noor Mohd, Divya Prakash. Poisson’s Ratio in Stone Dust and Steel Fiber Reinforced Composite Concrete: A Theoretical Approach. Journal of Polymer and Composites. 2024; ():-. Available from: https://journals.stmjournals.com/jopc/article=2024/view=152490

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Ahead of Print Open Access Original Research

Journal of Polymer and Composites

ISSN: 2321–2810

Volume

Received	June 11, 2024
Accepted	June 27, 2024
Published	June 29, 2024

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