Nanotechnology Company pioneering advanced graphene enhanced materials for industrial applications Gerdau Graphene has created a new water-based architectural paint that is significantly more durable and resistant to abrasion than traditional paints. The new paint is ideal for use on concrete, cement, metal, and asphalt, such as on sidewalks, bicycle lanes, garages, staircases, sports courts, and a wide array of commercial and industrial areas. Its parent company, Gerdau, began applying the new paint to its factory floors in March, making it the world's first large-scale use of a water-based graphene-enhanced architectural paint. The company is already selling its proprietary graphene additives as development prototypes to major paint producers in the Americas. The announcement follows recent news that the company has developed new graphene-enhanced thermoplastics.The development of the graphene-based paint started in December 2021 and is the result of a partnership with Grafftex, a Brazilian paint manufacturer, and Polystell, a company focused on research and development of chemical additives. Gerdau Graphene created the graphene technology used to disperse graphene into a paint additive. Because graphene comes in a variety of types and shapes, each of which has unique properties, significant research and testing was required to determine the best graphene format needed to produce a superior paint product. In addition, graphene additives need to be customized based on each paint manufacturer's unique formula and ingredients.Gerdau Graphene is also working on additives for anti-corrosion paints, focusing on reducing heavy metals and fossil-based ingredients from light and heavy maintenance paints.Graphene, considered to be the strongest material on Earth, is a one to ten atom-thick sheet of densely-compacted carbon that can be modified for various uses and added to industrial materials. Since its discovery in 2004, Graphene's extraordinary chemical, physical, electrical, thermal, and mechanical properties have captivated the world and led to its inventors winning the Nobel Prize. Graphene can be used to produce durable coatings that do not crack; are resistant to water, oil, and other liquids; and have antimicrobial, anticorrosive, and anti-UV properties.
Nanotechnology Company pioneering advanced graphene enhanced materials for industrial applications Gerdau Graphene has created a new water-based architectural paint that is significantly more durable and resistant to abrasion than traditional paints. The new paint is ideal for use on concrete, cement, metal, and asphalt, such as on sidewalks, bicycle lanes, garages, staircases, sports courts, and a wide array of commercial and industrial areas. Its parent company, Gerdau, began applying the new paint to its factory floors in March, making it the world's first large-scale use of a water-based graphene-enhanced architectural paint. The company is already selling its proprietary graphene additives as development prototypes to major paint producers in the Americas. The announcement follows recent news that the company has developed new graphene-enhanced thermoplastics.The development of the graphene-based paint started in December 2021 and is the result of a partnership with Grafftex, a Brazilian paint manufacturer, and Polystell, a company focused on research and development of chemical additives. Gerdau Graphene created the graphene technology used to disperse graphene into a paint additive. Because graphene comes in a variety of types and shapes, each of which has unique properties, significant research and testing was required to determine the best graphene format needed to produce a superior paint product. In addition, graphene additives need to be customized based on each paint manufacturer's unique formula and ingredients.Gerdau Graphene is also working on additives for anti-corrosion paints, focusing on reducing heavy metals and fossil-based ingredients from light and heavy maintenance paints.Graphene, considered to be the strongest material on Earth, is a one to ten atom-thick sheet of densely-compacted carbon that can be modified for various uses and added to industrial materials. Since its discovery in 2004, Graphene's extraordinary chemical, physical, electrical, thermal, and mechanical properties have captivated the world and led to its inventors winning the Nobel Prize. Graphene can be used to produce durable coatings that do not crack; are resistant to water, oil, and other liquids; and have antimicrobial, anticorrosive, and anti-UV properties.
