Descripción del proyecto
Hacia un futuro sostenible para los materiales compuestos termoestables
El proyecto VIBES, financiado con fondos europeos, está trabajando en una nueva tecnología rentable para descomponer materiales compuestos termoestables y recuperar componentes útiles cuando alcanzan el fin de su vida útil. El innovador método incluirá el uso de materiales de unión de origen biológico, fracciones químicas que se descomponen al aplicar estímulos externos específicos y permiten la separación de la matriz y el material de refuerzo. VIBES combinará diferentes métodos químicos, como la reacción de Diels–Alder y la química supramolecular, para obtener materiales de unión de origen biológico. La nueva tecnología podría contribuir a reducir en un 40 % la cantidad de polímeros no biodegradables que se desechan en vertederos o en el medio ambiente.
Objetivo
VIBES project presents an innovative solution to resolve the end-of-life issues of thermoset composites based on the development of a new green technology focused on the controlled separation and recovery of composite material components by means of developing customised biobased bonding materials (BBM). BBM are biobased chemical moieties that will decompose under specific external stimuli (temperature, UV or electrical pulse) allowing the separation between the matrix and the reinforcing material, and facilitating the dissociation of the polymer chains of the resins to favour their efficient processing and recycling through a green washing bath, recovering the monomers/oligomers and fibres for their upcycling into new products. VIBES will study and combine three different chemical approaches to obtain BBM: vitrimers, Diels-Alder, and supramolecular architectures.
VIBES project will directly contribute to achieve SIRA’s objectives in KPI1, KPI2, KPI5 and KPI8 and to demonstrate the solution decreasing the amount of non-biodegradable polymers sent to disposal or discharged to the environment by at least 40%. VIBES consortium involves 13 partners (industrially driven): 4 RTD (AITIIP, LEITAT, ULIM and DITF), 7 SME (SP, BCIRC, F&D, ARCHA, Q-PLAN, IDEC and JUNO), 1 Large Companies (ACC), and 1 OTHER (PLATA) accounting to 3 BIC associated (AITIIP, LEITAT, and ULIM). The proposed 48-months will comprise a total estimated budget of 5,299,800 €; being the 20.3% covered by consortium own contribution (in-kinds) and adding 524,311€ in additional investments during the project implementation and 9,385,000€ envisaged to upgrade TRL after the end of the project. Benefits will be significant in terms of companies growth (23.2%), increasing jobs (37 direct, 1800 indirect) and turnover (124M€) by promoting at least 2 new sector interconnections in the new created “Intrinsic Recyclable Thermoset Composites Value Chain”
Ámbito científico
Palabras clave
Programa(s)
- H2020-EU.3.2. - SOCIETAL CHALLENGES - Food security, sustainable agriculture and forestry, marine, maritime and inland water research, and the bioeconomy Main Programme
- H2020-EU.2.1.4. - INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies – Biotechnology
- H2020-EU.3.2.6. - Bio-based Industries Joint Technology Initiative (BBI-JTI)
Régimen de financiación
RIA - Research and Innovation actionCoordinador
50720 Zaragoza
España