Ultra-high performance concrete (UHPC) combines advanced fibrous and cementitious
material technologies to achieve high strength and exceptional durability. The material tends …

This paper presents a state-of-the-art review of the utilization of nanomaterials in ultra-high-
performance concrete (UHPC). First, various types of nanomaterials currently available for …

The negative impacts of cement-based material (CBM) production are way bigger than ever
expected. To illustrate the scale of this phenomenon, all the forests in the world, regardless …

A comprehensive study of the microstructural properties of ultra-high performance concrete
(UHPC) provides essential information about the underlying causes of its mechanical …

Concrete has a substantial impact on the environment as the cement, whose production
involves a large amount of CO 2, is its main ingredient. Enhancing the durability parameters …

Concrete significantly impacts the atmosphere as its primary raw material, Portland cement,
determines a considerable proportion of carbon dioxide in its production process. Improving …

Cracks in cement concrete composites, whether autogenous or loading-initiated, are almost
inevitable and often difficult to detect and repair, posing a threat to safety and durability of …

The unique physical and chemical properties of nano-particles can enhance the nature of
cement-based materials at the micro-scale and nano-scale levels, leading to improved …

In past decades, researchers have tried to improve the durability of concrete by integrating
supplementary cementitious materials into concrete. Recent advancements in the field of …

The carbon footprint of cement industries has been a major environmental issue in recent
decades. Carbon Capture and Storage (CCS), use of Supplementary Cementing Materials …