Assessment of Mechanical and Non Destructive Properties of Heavy Density Concrete Subjected to Acid Attack

Maaz Aslam Khattak; Sedra Tul Muntaha; Kinaan Sultan Khan Niazi; Yasir  Rasheed

doi:10.64615/fjes.1.SpecialIssue.2025.19

Authors

Maaz Aslam Khattak Department of Civil Engineering, HITEC University, Taxila Cantt Author
Sedra Tul Muntaha Department of Civil Engineering, HITEC University, Taxila Cantt Author
Kinaan Sultan Khan Niazi Department of Civil Engineering, HITEC University, Taxila Cantt Author
Yasir Rasheed Department of Civil Engineering, HITEC University, Taxila Cantt Author

DOI:

https://doi.org/10.64615/fjes.1.SpecialIssue.2025.19

Keywords:

Acid Attack, Grit Iron Scale, Heavy Density, Silica Fume

Abstract

Heavy-density concrete plays a pivotal role in providing structural integrity and radiation shielding in critical infrastructure. However, exposure to acidic environments poses a significant challenge, potentially compromising the material's durability and mechanical properties. This research examines the mechanical and non-destructive properties of heavy-density concrete produced by integrating grit iron scale aggregates as coarse aggregate in concrete and the utilization of silica fume as a supplementary cementitious material. The experiments involve preparing samples using 25% and 50% Heavy Weight Grit Iron Scale (HWGS) Aggregate along with 15% silica fume. Concrete specimens were tested for slump, compressive strength and rebound hammer after 28 days of curing. The water-cured specimens were exposed to 10% of sulfuric acid (H₂SO₄). The findings indicated that concrete containing 25% HWGS exhibited superior acid resistance in comparison to the other concrete mixes while achieving maximum compressive strength.