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H2020: Búsqueda de colaboración con grandes empresas interesadas en participar como usuarios finales en un nuevo proceso de fabricación industrial para presentar una propuesta dentro del tema FOF-06-2017

Resumen

Tipo:
Búsqueda de socios
Referencia:
RDGR20161118001
Publicado:
22/11/2016
Caducidad:
22/11/2017
Resumen:
Un consorcio liderado por Grecia ha desarrollado un proceso de fabricación escalable para producción en serie que requiere realizar unos cambios mínimos en plantas existentes. El consorcio busca grandes empresas con el fin de presentar una propuesta dentro del tema H2020-FOF-06-2017. El objetivo es desarrollar métodos de modificación de superficies que mejoren el rendimiento sin alterar la composición química de la superficie y que puedan integrarse fácilmente en lineas de producción en serie de forma rentable y respetuosa con el medioambiente. La fecha límite de la convocatoria es el 19 de enero de 2017 y el plazo para presentar expresiones de interés finaliza el 9 de diciembre de 2016.

Details

Tittle:
H2020: Looking for collaboration with large enterprises acting as end-users of a new industrial manufacturing process for a project proposal under FOF-06-2017.
Summary:
A Greek-led consortium has developed a scalable manufacturing process suitable for mass production, requiring minimal changes to existing plants. The consortium is looking for collaborations with large enterprises for a proposal submission under H2020-FOF-06-2017 topic, aimed at surface-modifying methods that improve performance without altering the chemical composition of the surface and can be easily integrated into mass production lines in a cost-effective and environmentally-friendly way.
Description:
A consortium of multinational industrial organizations and academia is currently being formulated. This consortium is preparing a proposal to be submitted under the Horizon 2020 topic FOF-06-2017: New product functionalities through advanced surface manufacturing processes for mass production.

The aim of the project is to improve product performance by developing surface-modifying methods which do not alter the chemical composition of the surface and can be applied to mass production lines in a cost-effective and easy to integrate way. The proposed method, which is scalable and therefore suitable for mass production, requires minimal changes to existing plants and is environmentally-friendly due to reduced energy consumption and pollutant-free operation.

The consortium needs to be enriched with large industrial enterprises in the automotive, aerospace, construction, oil -Y- gas, nuclear or medical sectors with an active interest and specific business use-cases of the work hardening processes (such as impact treatment and cyclic deformation) to act as end-users and contribute to the up-scaling and standardization of the proposed non-contact treatment process.

Deadline for proposal submission: 19/01/2017
Deadline for Expressions of Interest: 9/12/2016

Advantages and Innovations:
Critical components in the industry are susceptible to stress corrosion cracking caused by environmental and/or loading conditions. In such cases, making the components´ materials as resilient as possible is of utmost importance.

An innovative work hardening process has been developed which presents a series of advantages over existing techniques. This process is capable of non-contact stress annihilation by push-pull forces (cyclic deformation) acting on the surface of the material subject to treatment. This treatment has a gradient effect, portraying sub-surface annihilation with complete control over the applied load magnitude and distribution. Its operating parameters can be fine-tuned to suit any material under treatment.

The specified novel electromagnetic impact treatment method offers:

· Application of tensile and/or compressive forces in metallic surfaces
· Application of compressive stresses in non-metallic surfaces able to deliver non-contact mechanical treatment including:
· Cyclic deformation
· Surface polishing
· Oxide removal
· Electromagnetic forming
· Electromagnetic welding
· Non destructive investigation
by tensile and/or compressive stresses with the ability to adjust the direction and amplitude of the applied force vector in a faster, better and cheaper way.
Stage of Development:
Proposal under development
IPR Status:
Patent(s) applied for but not yet granted,Exclusive Rights
Comments Regarding IPR Status:
Patent Cooperation Treaty (PCT) submitted ("Electromagnetic hammer device for the mechanical treatment of materials and method of use thereof").

Partner sought

Partner Sought:
The Greek university is willing to establish research cooperation agreements with large enterprises in order to act as end-users. The large enterprises will supply a use-case for the application of the new technology and help define requirements and validation benchmarks.
Type of Partnership Considered:
RDR

Client

Type and Size of Client:
University
Already Engaged in Trans-National Cooperation:
Si
Languages Spoken:
English
Greek

Dissemination

Programme-call

Evaluation Scheme:
RIA - Single stage
Anticipated Project Budget:
ca. 5mn Euro
Coordinator Required:
No
Deadline for Call:
19/01/2017
Project Duration:
182
Project title and Acronym:
Electro-Magnetic Impact Treatment (EMIT)