Optimizing Concrete Strength: A Case for Sustainable Use of Local Resources

Authors

  • Tayaba Zafar Department of Architectural Engineering Technology, Punjab Tianjin University of Technology, Lahore, Pakistan. 22-ar-008@students.ptut.edu.pk Author
  • Nijah Akram Department of Architectural Engineering Technology, Punjab Tianjin University of Technology, Lahore, Pakistan. akram.nijah@ptut.edu.pk Author
  • Dr. Muhammad Zeshan Ashraf Assistant Professor, Department of Architecture, University College of Art and Design, University of the Punjab, Allama Iqbal Campus, Lahore, Pakistan. zeshan.cad@pu.edu.pk Author
  • Umer Mustafa School of Architecture, Southeast university, Nanjing, China. umermustafa084@gmail.com Author
  • Maryam Jamil Lecturer, Department of Architecture, Lahore College for Women University, Lahore, Pakistan. maryamjamil18@yahoo.com Author
  • Beenish Hasan Assistant Professor, Department of Architecture, Lahore College for Women University, Lahore, Pakistan. darius_80@hotmail.com Author
  • Muti ul Haq Lecturer, Department of Architectural Engineering Technology, Punjab Tianjin University of Technology, Lahore, Pakistan. Muti.ulhaq@ptut.edu.pk Author

DOI:

https://doi.org/10.63163/jpehss.v3i3.536

Keywords:

Sodium Chloride; Concrete Mixtures; Durability; Structural Integrity; Compressive Strength; Sustainable Use; Local Resources

Abstract

 To improve the sustainability of building materials, this study explores the use of sodium chloride
(NaCl) in concrete mixtures as a partial substitute for cement. The study examines the various
ways that salt affects concrete, taking into account how it affects durability, long-term structural
integrity, and early strength development. Over time, chloride ions from NaCl may seep through
the cement matrix and cause embedded steel reinforcement to corrode. However, NaCl can speed
up hydration and encourage the production of calcium silicate hydrate (C-S-H) at ideal dosages
(usually less than 5% by weight of cement), which improves early-age compressive strength. To
maximize the advantages of quicker setting without sacrificing long-term performance, a careful
balance is essential when adding salt to concrete. It is crucial to assess the intended use, exposure
conditions in the environment, and the existence of reinforcement. Strategies for adding salt that
optimize performance while addressing durability issues are still being investigated, especially for
non-structural or short-life applications with low corrosion threats. 

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Published

2025-07-26

Issue

Vol. 3 No. 3 (2025): Physical Education, Health and Social Sciences

Section

Social Science

License

Copyright (c) 2025 Tayaba Zafar , Nijah Akram, Dr. Muhammad Zeshan Ashraf, Umer Mustafa, Maryam Jamil, Beenish Hasan, Muti ul Haq (Author)

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.