Geopolymer concrete offers an eco-friendly solution to traditional Portland cement by utilizing industrial waste materials and reducing CO2 emissions. This article examines its production, properties, advantages, and potential applications, as well as the challenges and future prospects of adopting geopolymer technology in the construction industry.| AZoBuild
Staggering amounts of waste are produced by industrial and domestic activity. Utilizing waste to produce value-added products is a central focus of research, and waste streams are being increasingly utilized in building materials. This article will explore the potential use of e-waste in concrete.| AZoBuild
Research shows that integrating pumice and waste tire rubber in geopolymer concrete enhances mechanical properties, offering a sustainable building solution.| AZoBuild
Concrete sensors enhance structural health monitoring, offering real-time data for sustainable infrastructure management.| AZoBuild
The majority of concrete floors are flat slabs of material that are either pre-cast or poured on-site. This article discusses the advantages and disadvantages of installing concrete flooring.| AZoBuild
Innovative self-healing concrete with Bacillus subtilis offers a sustainable solution to cracking, enhancing durability and reducing maintenance costs.| AZoBuild
This study presents a concrete mix using agro-industrial waste, achieving 38.8% lower emissions and improved strength, paving the way for sustainable building.| AZoBuild
A hybrid fuzzy neural network model enhances prediction accuracy of hardness properties in high-performance concrete, addressing complex material behaviors.| AZoBuild
Researchers reveal CCRE, a low-carbon alternative to concrete, achieving 75% less emissions and comparable strength, crucial for sustainable building practices.| AZoBuild
