FTIR spectrometry is essential for detecting harmful substances in building materials, facilitating safer construction and ...

A study utilizes large language models to predict reactivity in 14,000 cementitious materials, advancing low-carbon clinker substitutes for sustainable cement.

Innovative microbial coatings from Graz University of Technology transform façades into living systems, offering ...

RMIT engineers have developed a method to convert low-grade clay into a cement supplement, enhancing sustainability in ...

Researchers used machine learning and life cycle assessment to evaluate the carbon emissions of magnesium silicate hydrate ...

This research highlights MDCGM, a magnetically driven grouting material that optimizes underwater crack repair with enhanced ...

Explore how global cladding regulations, fire safety standards, and façade design practices have evolved since key high-rise ...

The adoption of mass timber, notably CLT, offers substantial carbon storage benefits and encourages sustainable forest practices, vital for climate action.

The construction sector faces a unique set of challenges, with aspects such as high prices, supply risk, skills shortages and ...

A study reveals machine learning algorithms can predict compressive strength in concrete with waste glass powder, enhancing ...

Ginger and ornamental rock waste enhance cement mortars, providing a sustainable solution to microbial growth and improving ...

This study presents a precise method for monitoring shear crack development in concrete using acoustic emission analysis ...