Graphene, with its high strength and electrical conductivity, is rapidly gaining new applications in a variety of industrial and scientific fields. Graphene-modified polymer and cementitious materials demonstrate unique mechanical, thermal, electrical, and barrier characteristics due to covalent and non-covalent bonds between matrices and graphene. These nanocomposites have demonstrated potential for applications in several technological fields. This review focuses on the latest developments in the field of graphene-filled polymeric and cementitious materials. The main types of graphene...

Silicone dioxide nanoparticles are essential in the production of composite materials.This book contains an analysis of the properties and methods for producing and using silicon dioxide nanoparticles. They are the basis for many practical applications due to their stability, low toxicity, and ability to functionalize using a few molecules and polymers. Three main processes for producing silicon dioxide nanoparticles are considered: the pyrogenic method, the sol-gel process, and hydrometallurgical methods for processing silicate rocks. The book provides an overview of the latest advances in...

Silicone dioxide nanoparticles are essential in the production of composite materials.This book contains an analysis of the properties and methods for producing and using silicon dioxide nanoparticles. They are the basis for many practical applications due to their stability, low toxicity, and ability to functionalize using a few molecules and polymers. Three main processes for producing silicon dioxide nanoparticles are considered: the pyrogenic method, the sol-gel process, and hydrometallurgical methods for processing silicate rocks. The book provides an overview of the latest advances in...

The integration of nanoalumina reinforcement into polymer and cement composites represents a promising avenue for advancing material performance and functionality across diverse industries. By leveraging the exceptional properties of nanoalumina, including mechanical strength, thermal stability, and chemical inertness, researchers and engineers can develop innovative composites with tailored properties for specific applications. As research continues to progress and technology matures, nanoalumina-modified polymer and cement composites are poised to play a pivotal role in shaping the future...