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CLASCO Project

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CLASCO Project

START DATE: 01/01/2023
END DATE: 30/06/2026
PROJECT TITLE:  CLASCO. Climate Neutral and Digitalized Laser Based Surface Functionalization of Parts with Complex Geometry
CALL IDENTIFIER: HORIZON-CL4-2022-TWIN-TRANSITION-01

PROJECT PARTNERS:
Coordinator: TECHNISCHE UNIVERSITAET DRESDEN
Partner: FUNDACION ANDALUZA PARA EL DESARROLLO AEROESPACIAL
Partner: SYLAS
Partner: NEW INFRARED TECHNOLOGIES SL
Partner: SATISTICA LIMITED
Partner: Ashford und Beck Circular Technologies
Partner: AIRBUS DEFENCE AND SPACE SA
Partner: CT INGENIEROS AERONAUTICOS DE AUTOMOCION E INDUSTRIALES SL
Partner: Deutsche Gesellschaft für Materialkunde e.V.
Partner: SurFunction GmbH
Partner: DEPUY (IRELAND) UNLIMITED
Partner: STEINBEIS 2I GMBH
Partner: nLIGHT GmbH

CLASCO Project Summary

In the coming years, the European industry must assume the challenge of adopting clean and climate-neutral industrial value chains, producing sustainable products.

Adopting digital systems will radically change the industry with products and services through innovative production processes. In particular, fully digitalised laser-based additive manufacturing methods are very versatile and thus can be implemented in different industries.

Furthermore, energy saves against conventional manufacturing and material waste but also by design optimization can be achieved.

However, these parts also required of additional surface treatments, which are nowadays energy and material-consuming, increasing costs and harming the environment.

In addition, new concepts for increasing the added value of AM parts must be developed, for instance, by producing advanced surface functionalities in critical applications. The main objective of the CLASCO project is to develop a universal and digitalised laserbased post-process route for creating functionalised AM parts with complex shapes.

While the complex parts will be produced by Laser Powder Bed Fusion, Laser polishing and laser surface micro-structuring using Direct Laser Interference Patterning will be combined in a unique manufacturing system.

This route will substitute several resource-consuming processes, reducing the environment’s negative impact. The implementation will allow substituting standard environmental non-friendly methods and even obtaining a better performance.

In addition, different in-line monitoring methods, specifically plasma sensors and infrared cameras will be implemented. In this way, a virtual representation of the process for each part will be possible (digital twin), creating an entirely digitised product.

The project’s impacts will be analysed to optimise the sustainability of processes and products across the entire life cycle.


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