The United 3S Polypropylene Fiber from United Mortar Industries is a high-performance secondary reinforcement material designed to enhance the durability and longevity of concrete structures. By integrating these fibers into concrete mixes, the material gains improved resistance to cracking, water penetration, abrasion, and impact, leading to more robust and long-lasting constructions. As a secondary reinforcement material, it arrests shrinkage cracks and increases resistance to water penetration, abrasion, and impact. It makes concrete homogenous and also increases compressive behavior, ductility, and flexural strength together. With improving a structure's ability to absorb more energy. Thereby extending its life span and also reducing its maintenance costs. The ability to replace or reduce nonstructural steel also reduces input costs. No surprise that leading architects, structural engineers,s and builders rely on United 3S to deliver quality and durability. Applications:
Key Features:
✔ Crack Control: Significantly reduces shrinkage cracks in concrete, enhancing structural integrity.
✔ Enhanced Durability: Improves resistance to water ingress, abrasion, and impact, leading to longer-lasting structures.
✔ Improved Mechanical Properties: Increases compressive strength, ductility, and flexural strength, contributing to overall structural performance.
✔ Cost Efficiency: Potentially reduces the need for non-structural steel reinforcement, lowering material costs.
✔ Homogeneous Mix: Ensures uniform distribution within the concrete, resulting in consistent performance throughout the structure.
Applications:
United 3S Polypropylene Fiber is versatile and suitable for various construction applications, including:
✔ Reinforced Cement Concrete (RCC) and Plain Cement Concrete (PCC) elements like lintels, beams, columns, flooring, and wall plastering.
✔ Foundations, water tanks, manhole covers, and tile installations.
✔ Cement-based plastering for enhanced surface durability.
✔ Roads and pavements requiring improved wear resistance.
