Recycled steel fibers from tires offer a sustainable solution for concrete reinforcement, enhancing tensile strength while addressing environmental concerns.

Engineers from the University of Manchester say their concrete is twice as strong as conventional concrete. The secret ...

Research shows that integrating pumice and waste tire rubber in geopolymer concrete enhances mechanical properties, offering ...

This "self-healing" and "self-heating" bendable concrete is the next generation of infrastructure material, Michigan State ...

Innovative self-healing concrete with Bacillus subtilis offers a sustainable solution to cracking, enhancing durability and reducing maintenance costs.

Led by Professor Masoud Akbarzadeh, the Penn group has developed Diamanti, a 3D-printed structural system that uses both ...

A hybrid fuzzy neural network model enhances prediction accuracy of hardness properties in high-performance concrete, addressing complex material behaviors.

The Design of Experiment (DOE) technique was used to assess the impact of factors such as silica fume, bamboo fibers, and jute fibers on concrete strength. The Box–Behnken design of Response Surface ...

Abstract: In this paper, the effectiveness of potassium poly-acrylate as an internal curing agent for improving the compressive strength of concrete is investigated. Concrete specimens designed to ...