This study presents an advanced model for predicting concrete durability, showing that silica fume and slag can drastically boost concrete durability.

Modular panels made from geopolymer materials present a high-performance, eco-friendly solution for construction, enhancing ...

Modular control booths deliver efficient radiation shielding with quick setup and flexibility, ideal for evolving medical ...

Investigating pretreatment techniques, this research reveals how microstructural improvements can enhance the performance of ...

Learn what embodied carbon is, why it matters in building design, and how tools like LCAs, EPDs, and BIM can help reduce ...

Investigating the effects of bentonite, silica fume, and polypropylene fibers, this study highlights their role in enhancing ...

Assessing seismic vulnerability in Dir City, this study uses a modified RVS approach to identify risks and propose strategies ...

The integration of bamboo stem ash and fibers in mortar enhances performance, presenting a viable solution for lightweight ...

The BO-GBRT model accurately predicts compressive strength in self-compacting concrete with recycled aggregates, improving ...

Download this guide to keep practical insights, real-world use cases, and implementation tips at your fingertips—whether ...

Cement plants could miss out on carbon credit revenue due to inaccurate biogenic CO₂ data. ENVEA’s AMESA-B safeguards data ...

This study reveals how load-bearing wall materials affect building responses to mining vibrations, impacting safety and occupant comfort in seismic regions.