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REFORM | Resource-Efficient Factory Of Recyclable Manufacturing composite Components

01-12-2011

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30-11-2015

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Technologies and enablers
Advanced material processing technologies
Comment: Laser-assisted tape layup Augemented reality for ply positioning - http://reform.eu.com/about/aboutSub.aspx?aboutsubid=6 Accurate and energy-efficient 5-axis waterjet machining
High productivity and “self assembly” technologies development of conventional (joining, forming, machining) and new micro/nano-manufacturing processes
Comment: Advanced assembly concepts for large composite components Novel fixtures Jigless fixturing for composite parts - http://reform.eu.com/about/aboutSub.aspx?aboutsubid=8

FABIMED | Fabrication and Functionalization of BioMedical Microdevices

02-09-2013

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01-09-2016

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Technologies and enablers
Advanced material processing technologies
High productivity and “self assembly” technologies development of conventional (joining, forming, machining) and new micro/nano-manufacturing processes
Comment: A highly innovative multileve micro-nanostructuring technology will be used for the first time for producing functional geometries on full sized components, based on the combination of coated microstructured parts with the nanofunctionalization by means of selective etch-resistant implantation and controlled plasma treatment. This is a highly productive and highly controlled way to generate the desired nanostructures which will be then transfer at high productivity to the final product using microrreplication.

FiaD | Factory-in-a-day

01-10-2013

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30-09-2017

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Technologies and enablers
Advanced material processing technologies
High productivity and “self assembly” technologies development of conventional (joining, forming, machining) and new micro/nano-manufacturing processes

MICRO-FAST | A FAST process and production system for high-throughput, highly flexible and cost-efficient volume production of miniaturised components made of a wide range of materials

01-09-2013

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28-02-2017

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Technologies and enablers
Advanced material processing technologies
Comment: Powder processing technology
High productivity and “self assembly” technologies development of conventional (joining, forming, machining) and new micro/nano-manufacturing processes
Comment: The Micro-FAST machine is designed as highly automated systems integrating in the process chain fully automated sub systems to reach high productivity for small parts with final shape (up to 200parts/hour). The FAST process combined with the use of nanostructured powder allows to preserve the nanostructure in the part providing a new approach for the forming of nano-products

Z-BRE4K | Strategies and Predictive Maintenance models wrapped around physical systems for Zero-unexpected-Breakdowns and increased operating life of Factories

01-10-2017

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31-03-2021

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Technologies and enablers
Advanced material processing technologies
Comment:

Z-BRE4K’s mission is to build a distributed software system solution including the Industry 4.0 principals towards cyber-physical, digital, virtual and resource-efficient factories. The ultimate goal is to develop intelligent maintenance systems for increased reliability of production systems. Additionally, special attention is going to be given on processes, advancing technologies and products, integrating knowledge, training, technology and industrial development in a market-oriented environment. Z-BRE4K’s intended impact to the European manufacturing industry in the increase of the in-service efficiency by 24%

High productivity and “self assembly” technologies development of conventional (joining, forming, machining) and new micro/nano-manufacturing processes
Comment:

Z-BRE4K will contribute to the productivity increase of different critical manufacturing processes, such as joining (GESTAMP), cutting (PHILIPS) and forming (GESTAMP, PHILIPS, SACMI) by providing analytics and suggestion in to order to assist in minimizing the machines breakdowns. The main gain is operational and maintenance costs reduction. Furthermore, for the GESTAMP use case a real-time arc welding quality control system, based on infrared images, is being developed

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