Nobel Prize winner W. E. Pauli warned, "God made the bulk, surfaces were invented by the Devil". Surface properties must be controlled and modified to satisfy demanding engineering requirements for sectors as diverse as consumer appliances, packaging, automotive, aerospace, and energy. The mass manufacture of functional surfaces is currently achieved via the application of expensive coatings, which can have proven harmful consequences on the environment.
HIMALAIA proposes the first up-scalable, adaptable, industrially relevant, cost-effective manufacturing platform that would allow the mass-production of high-performing functional micron and sub-micron structured surfaces on 3D and/or large polymer parts with antimicrobial, anti-scratch, anti-squeak, self-cleaning and aesthetic properties without coatings.
Latest advances in laser surface patterning/texturing, particle self-assembly for photonic nanojet patterning, and surface engineering of injection moulds at TRL4 will be combined and brought to TRL6 for the efficient and flexible micro / nano-structuration of large, 3D mould cavities.
These moulds will allow mass production of parts with functional surfaces via injection moulding. This process will be developed with great strides made notably on the modelling of structure-function relationships and on the demoulding step.
Finally, in-line, model-based inspection of surface topographies and functionalities will be developed and implemented on the platform. Results will be supported by Life-Cycle Analysis, project management, dissemination and IP/innovation management to ensure the economic sustainability and the European deployment of the platform towards 2030.
HIMALAIA will validate the efficiency and flexibility of the manufacturing platform through three high impact industrials demonstrators in different sectors: orthodontics (EO), cosmetic packaging (Albea) and automotive (CRF). Clear scientific, exploitation and business plans are presented.
| Web resources: |
https://cordis.europa.eu/project/id/766871
https://himalaia-project.eu |
| Start date: | 15-09-2017 |
| End date: | 14-09-2020 |
| Total budget - Public funding: | 4 679 771,00 Euro - 4 679 771,00 Euro |
Original description
Nobel Prize winner W. E. Pauli warned, “God made the bulk, surfaces were invented by the Devil”. Surface properties must be controlled and modified to satisfy demanding engineering requirements for sectors as diverse as consumer appliances, packaging, automotive, aerospace, and energy. The mass manufacture of functional surfaces is currently achieved via the application of expensive coatings, which can have proven harmful consequences on the environment. HIMALAIA proposes the first up-scalable, adaptable, industrially relevant, cost-effective manufacturing platform that would allow the mass-production of high-performing functional micron and sub-micron structured surfaces on 3D and/or large polymer parts with antimicrobial, anti-scratch, anti-squeak, self-cleaning and aesthetic properties without coatings.Latest advances in laser surface patterning/texturing, particle self-assembly for photonic nanojet patterning, and surface engineering of injection moulds at TRL4 will be combined and brought to TRL6 for the efficient and flexible micro / nano-structuration of large, 3D mould cavities. These moulds will allow mass production of parts with functional surfaces via injection moulding. This process will be developed with great strides made notably on the modelling of structure-function relationships and on the demoulding step. Finally, in-line, model-based inspection of surface topographies and functionalities will be developed and implemented on the platform. Results will be supported by Life-Cycle Analysis, project management, dissemination and IP/innovation management to ensure the economic sustainability and the European deployment of the platform towards 2030.
HIMALAIA will validate the efficiency and flexibility of the manufacturing platform through three high impact industrials demonstrators in different sectors: orthodontics (EO), cosmetic packaging (Albea) and automotive (CRF). Clear scientific, exploitation and business plans are presented.
Status
SIGNEDCall topic
FOF-06-2017Update Date
27-10-2022Factories of the Future Partnership - Made in Europe Partnership
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| CENTRE TECHNIQUE INDUSTRIEL DE LA PLASTURGIE ET DES COMPOSITES (CT-IPC) (Coördinator)
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| AGIE CHARMILLES NEW TECHNOLOGIES SA
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| ALBEA SERVICES
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| ALICONA IMAGING GMBH
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| CENTRO RICERCHE FIAT SCPA
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| COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES (CEA)
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| EUROORTODONCIA S.L.
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| MIKRON AGIE CHARMILLES AG
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| THE UNIVERSITY OF BIRMINGHAM
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| UNIVERSITY OF BRADFORD
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| WAVESTONE ADVISORS
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| WAVESTONE LUXEMBOURG SA