The GREENMUR project develops a 3D printing material made from industrial waste and white cement.

The alliance between Gazechim Composites Ibérica, Graphenano, and Polymec S.L. is set to revolutionize the construction sector and promote the use of composite materials within this industry.
These are the first pultrusion profiles made with graphene, the most innovative nanomaterial, which will play a key role in the future of composites.

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Still not sure what graphene is? Haven’t heard about our Graphenano One?
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At Polymec, we are committed to protecting the environment. That’s why we carry out initiatives aimed at promoting energy efficiency and the use of renewable energy sources, strengthening a sustainable and high-quality model within our facilities.

As part of this effort, we have renewed our lighting systems with LED technology and installed a new compressor, achieving an annual reduction of 30 tons of CO₂ emissions into the atmosphere.

This initiative has been co-financed by the European Regional Development Fund (ERDF) and the Region of Murcia.

Total investment: €21,945.42
Total grant awarded: €9,047.20
ERDF contribution: €7,237.76

Objective: To advance in the assessment and improvement of energy efficiency in companies, particularly SMEs, and to achieve a cleaner and more sustainable economy.

Among the technological challenges posed by the materials used in the construction sector, one of the most notable is the need for continuous innovation to achieve products with greater added value — featuring new designs and improved properties — while remaining aligned with a sustainable development model that reduces resource consumption and waste generation. In this regard, the circular economy represents a major opportunity from a business, social, and environmental standpoint.

In this context, Polymec, GLS 2014, and Yesos Rubio, in collaboration with the Technological Centre for Marble, Stone and Materials, have launched the project GREENMUR – Transition to a Greener Regional Industry through Circular Economy Processes in the Fiberglass, Marble, and Plaster Sector via Additive Manufacturing. The initiative incorporates Additive Manufacturing technology to process marble sludge and plaster waste, reinforcing them with fiberglass residues to produce new commercial prefabricated products.

The project will help reduce the consumption of mineral resources in the construction sector, minimize waste generation, and manufacture new products using Industry 4.0 technologies such as Additive Manufacturing, generating significant environmental, social, and economic benefits.

The project has been funded through the R&D Challenges Program of the Region of Murcia and has received financial support from the Development Institute of the Region of Murcia (INFO) and the European Regional Development Fund (ERDF).

In Europe, transport accounts for nearly a quarter of all greenhouse gas emissions. One of the key strategies to combat this environmental impact is to reduce vehicle weight, which not only lowers fuel consumption but also improves performance, decreases the load on suspension and braking systems, and supports the development of electric vehicles, where range remains a major challenge.

RECOTRANS Project

POLYMEC is participating in the RECOTRANS project, whose goal is to develop technologies and design solutions that reduce vehicle weight without increasing costs. To achieve this, the project is developing multi-material thermoplastic components that both reduce part weight and allow for more complex designs. It also incorporates microwave curing in the manufacturing process to shorten production times and lower energy consumption, as well as metal–polymer hybrid welding to reduce raw material use and improve process standardization and automation. All of this is supported by an intelligent production line monitoring system.

The outcome of this innovative system will be the development of three demonstrators in the automotive, truck, and railway sectors: a car door, a truck cab rear suspension, and an interior panel for a train carriage. Early results from the project show that, after producing the first prototypes, there has been a significant reduction in both costs and energy consumption compared to conventional composites, as well as a viable path toward recycling and reprocessing recycled thermoplastic composites.

The RECOTRANS project, which began in October 2017 and will conclude in October 2021, is funded by the European Union under the Horizon 2020 program, and involves 13 partners from seven different countries. The developments achieved through this project will also be applicable to other industries.