Versarien, an engineering firm based in Gloucestershire, has entered into a collaboration with Balfour Beatty. This partnership aims to revolutionise the construction sector by developing graphene-infused mortars.
The initiative focuses on creating sustainable building materials with a reduced carbon footprint. The collaboration will explore the practical application and performance of these materials, setting a new standard in construction technology.
Versarien and Balfour Beatty have embarked on a groundbreaking venture to formulate graphene-enhanced, 3D-printable mortars. This innovation is aimed at civil construction projects, promising a notable reduction in carbon emissions. The collaboration is expected to lead to the development of three distinct types of mortar, incorporating Versarien’s proprietary Cementene admixture, with at least one variant utilising locally sourced materials.
The supply chain will include manufacturing facilities, distribution channels, and retail partnerships. This comprehensive approach is essential for seamless integration of new materials into existing market structures.
Moreover, the viability of utilising 3D-printed construction methods will be scrutinised. Factors such as time efficiency and long-term sustainability will inform future construction practices.
Dr. Hodge highlighted Versarien’s previous collaborations with Balfour Beatty, underscoring the strong existing relationship between the two companies.
The company’s strategic decisions, including a recent share placing and agreements with other industrial entities, reinforce its market position.
Further exploration and investment in graphene technology could lead to additional breakthroughs, benefiting a wide array of markets.
The collaboration between Versarien and Balfour Beatty could pave the way for widespread adoption of 3D-printed construction materials.
The partnership between Versarien and Balfour Beatty is poised to set new benchmarks in the construction industry. Through innovative solutions and sustainable practices, the collaboration aims to deliver substantial benefits in terms of efficiency and environmental impact.
