TEPPIES Call 02-2014

TEPPIES Call 02-2014 Expressions of Interest Targeting HORIZON 2020 Topics: NMP-25-2014: Accelerating the uptake of nanotechnologies, advanced materials or advanced manufacturing and processing technologies by SMEs CS5-20-2014: Boosting the potential of small businesses for eco-innovation and a sustainable supply of raw materials NMP-02-2015 Integration of novel nano-materials into existing production lines NMP-22-2015 Fibre-based materials for non-clothing applications FoF 10-2015: Manufacturing of Custom Made Parts for Personalized Products FoF-12-2015: Industrial technologies for advanced joining and assembly processes for multi-materials WATER-1b-2015: Demonstration/pilot activities H2020-WASTE-6a-2015: Eco-innovative solutions Project ideas presented at 18 September 2014 Brokerage Event

H2020 NMP-25-2014 11/12/2013 (Publication Date) 09/10/2014 07/12/2014 Prime proposer organisation GRADO ZERO ESPACE SRL (Italy) Key industry partners Basalt Projects JSC (Russia) Key research partners GRADO ZERO ESPACE SRL and Basalt Projects JSC HQ-BAFIPROTECH Full project working title High Quality BAsalt FIbre PROduction TECHnology EC work programme topic NMP-25-2014: Accelerating the uptake of nanotechnologies, advanced materials or advanced manufacturing and processing technologies by SMEs The proposed project aims at integrating European SMEs and Russian owners of Basalt technology, with the purpose to develop a feasibility study for assessing the technological/practical, as well as economic viability of using Basalt for a new generation of sustainable, high-end and low-cost applications of innovative composites manufactured by this rock. The Basalt material is not a young material, despite of this, the fibre-based applications is possible to realize with this rock are extremely promising for several end-uses in the composites sector, at the moment looking for innovative material solutions with new features to be exploited on the market - i.e., petrochemical industry, construction and building, marine applications. At the present, just a handful of countries in the world, including Russia, Ukraine, China, Canada and USA, possess the production technology for the fabrication of continuous fibres with Basalt of interesting quality and reproducibility for the market. The main reason of this technological delay on Basalt is not in a crisis of the demand, which is growing instead, but in the low production activity by Companies, and in the quality that seems to have problems in reproducibility. For various reasons, industrial producers are not able to organize the production of superior Basalt fibres on relevant scales. Market is ready to place orders for Basalt-derived products, but only having assurances of high quality, reproducibility and supply capacity. The overall project strategy, planned on four years for the phase 1 (6M), 2 (24M) and 3 (18M), will be carried out with two principal key objectives intended for addressing the business opportunity presented at best. In the first, cost-effective CBFs (continuous Basalt fibres) with superior quality and two derived products - i.e., rovings and chopped fibres - will be realized on a pilot scale plant (700 tonnes/year) built in Russia - where at the moment is present the technology and the raw materials - in joint partnership with EU Companies and expressly targeted on the EU market. Key results for this objective: a. obtaining a final production price inferior with respect of that of comparable products derived from the Glass technology, but with superior performance, extended life and end-uses; b. ensuring the reproducibility of the Basalt technology, shifting the production from the step 2.0, present at the moment in several production plants worldwide, towards the next generation of production, 3.0 (standard and replicable technology of continuous basalt fibre - CBF - market-oriented). In the second, the produced continuous fibres and the derived products (fabrics, mats and tapes), will be tested in the specific applications for the key sectors envisaged above, to have a pre-commercialisation of the final products within the end of the phase 2 for the EU market.

Search n 1 Partner type Industry Companies involved in the composites industry interested in the Basalt technology (manufacturing and commercialisation of the products) Companies with expertise in textile-based composite materials for petrochemical industry, construction and building, marine applications, interested in the Basalt technology (manufacturing and commercialisation of the products) Search n 2 Partner type RTD RTD entities interested in research and development of Basalt-based products (material solutions) for petrochemical industry, construction and building, marine applications RTD entities interested in research and development of the Basalt manufacturing technology (also additive manufacturing) Title Mr/Ms/Prof/Dr First name Giada Surname Dammacco Title Mr/Ms/Prof/Dr First name Enrico Surname Cozzoni Organisation name E-mail addresses GRADO ZERO ESPACE SRL giada.dammacco@gradozero.eu enrico.cozzoni@gradozero.eu Direct phone number 0039-0571-80368

TEPPIES 02-2014 27/06/2014 09/10/2014 example H2020 SC5-20-2014 11/12/2013 17/12/2014 Prime proposer organisation Key industry partners Key research partners Full project working title EC workprogramme topic University of Maribor, Faculty of Mechanical Engineering Institute of engineering materials and design, Slovenia PREVENT & DELOZA d.o.o., Slovenia (Production of Workwear, protectivewear, gloves and uniforms) OPLET d.o.o, Bosnia and Herzegovina (Production of knitwear, men's lingerie and sportswear) VINJETA d.o.o, Bosnia and Herzegovina (Printing on textile materials) EXCLUSIVE LINGERIE d.o.o, Bosnia and Herzegovina (Production of lingerie, swimwear and sportswear for fitness and aerobics) University of Banja Luka, Bosnia and Herzegovina University of Novi Sad, Serbia Non-confidential abstract (max. 100 words): EITM ECO-INNOVATIVE TEXTILE MATERIALS FOR MEDICAL AND OTHER FUNCTIONAL USE CS5-20-2014: Boosting the potential of small businesses for eco-innovation and a sustainable supply of raw materials Nowadays, consumers demands are increasing in terms of comfort, functional and especially very strict antimicrobial properties of clothing that is used in medicine and sports. The aim of project is to modify conventional textile processing (substituion convencional bleaching with O 3 and H 2 O 2, plasma and enzymes treatments), dyeing and printing procedures (zeolite and herb extracts with and without microencapsulation) and to develop innovative, functional and environmentally friendly antimicrobial textile products for the medical, sports and other fields of use. This new methods of eco-friendly antibacterial dyeing and printing will represent a significant contribution for the development of small and medium enterprises. Search n Partner type Industry/Research Title Prof. Dr First name Jelka Name GERŠAK Organisation name University of Maribor, Faculty of Mechanical Engineering E-mail address jelka.gersak@um.si Direct phone number +386 2 220 7960

H2020 NMP-02-2015 11/12/2013 26/03/2015 Prime proposer organisation AITEX Key industry partners Key research partners Full project working title EC workprogramme topic Spanish spinning company AITEX Monitoring and control of yarn nano-composites production operational environment. NMP-02-2015 Integration of novel nano-materials into existing production lines Non-confidential abstract (max. 100 words): Project aim: The idea of the project is to develop and demonstrate in real environment the introduction of nanofiller into yarn and fabric. The idea is to demonstrate that the production of yarn and fabric nanocomposites is feasible into existing industrial processes. Actions: 1)The idea is to install a set of control systems able to monitor both: i) the production parameters of the nano-composites and ii) the specific features of the nano-composites (i.e. the nano-filler dispersion) 2) Several case of studies will be used for testing and validating the project developments. 3) Look for crossovers with other sector like automotive of construction. Search n Partner type Industry/Research/Other (delete the unnecessary) Short description of profile (competences required, geographic origin etc., max 100 words): AITEX.: Spanish spinning company: (To be confirmed) Research institution: Control systems developer. Research institution: Nano-composites developer. Companies: End-user of the developments. Integration the project output into their production lines. Companies: Suppliers of nano-fillers. Title Dr First name Ramos Fernández Name José Manuel Organisation name ATIEX E-mail address jramos@aitex.es Direct phone number +34 965542200

example H2020 NMP-02-2015 NMP-22-2015 22/10/2014 22/10/2014 26/03/2015 26/03/2015 Prime proposer organisation TECHTERA Key industry partners French textile manufacturer Key research partners - Full project working title EC workprogramme topic Light and flexible efficient textile protections against ionizing radiations. NMP-02-2015 / NMP-22-2015 A French industrial partner of TECHTERA is developing a novel technology for the production of innovative protective textiles against radiations. Results of conducted studies and experiments are very relevant: efficient protection against ionizing radiation is reached with light and flexible structures. Applications of this new product could be found in different sectors such as medical market, personal protective equipment and industrial sector. Search n Partner type Industry/Research/Other - Industrial partners interested in the application of the innovative textile. - End user. - RTD performers. Title Mr/Ms/Prof/Dr First name Bruno Name Mougin Organisation name TECHTERA E-mail address bmougin@techtera.org Direct phone number +33420302880

H2020 NMP-02-2015 11/12/2013 26/03/2015 Prime proposer organisation AITEX Key industry partners Key research partners Full project working title EC workprogramme topic Spanish spinning company AITEX Smart monofilaments for industrial application. NMP-22-2015 Fibre-based materials for non-clothing applications Non-confidential abstract (max. 100 words): Project aim: The idea of the project is to develop monofilaments able to be used in 3D printing. 3D printing is demanding filaments with special features like electrical conductivity, luminescence etc. Actions: 1) The idea is to develop monofilaments filled with nano-particles with the aim of providing smart features to the filaments. 2) Provide functional properties like self-cleaning, electrical conductivity, anti-fungi etc. 3) To characterize the dispersion of the nanoparticles into the filaments. 4) To validate the monofilaments as a precursor in 3D printing. 4) Several case of studies will used for testing and validate the project developments. 5) Look for crossovers to other sectors. Search n Partner type Industry/Research/Other (delete the unnecessary) Short description of profile (competences required, geographic origin etc., max 100 words): AITEX.: Spanish spinning company: (To be confirmed) Research institution: Characterization of nano-composites. Research institution: Nano-composites developer. Companies: End-user of the developments. Integration the project output into their production lines. Companies: Suppliers of nano-fillers. Title Dr First name Ramos Fernández Name José Manuel Organisation name ATIEX E-mail address jramos@aitex.es Direct phone number +34 965542200

H2020 NMP-22-2015 11/12/2013 (Publication Date) 26/03/2015 08/09/2015 Prime proposer organisation GRADO ZERO ESPACE SRL (Italy) Key industry partners Textile companies from Austria and Italy Key research partners RTD entities from Greece, Slovenia, Switzerland, Poland, Austria, Norway and Portugal Full project working title EC work programme topic NETEFRES NEw TEchnical FibRES (for non-clothing applications) NMP-22-2015: Fibre-based materials for non-clothing applications The project aims at analyse, develop and test material solutions starting from two very interesting and promising sources of fibres. The first is a rock, the Basalt, and will give rise to fibre-based composites to be used in petrochemical industry, construction and building and marine applications for structural and protective end-uses. The second is a naturally-derived biopolymer, the Keratin, obtained by waste feathers and exhausted wool, to be used in green and materials chemistry applications for the separation, recovery and purification of biological or biosynthetic products, in biomedical end-uses for tissue engineering, regenerative medicine, wound healing, drug delivery, and in technical devices designed for safety purposes. 1) BASALT: between all the fibres used in the composites industry, that coming from Basalt is a unique product, first because is derived from volcanic lava deposits - i.e., is of natural origin. The fibres are manufactured directly from the basaltic rock in a single-melt process, and comprising only single-ingredient raw materials melts, i.e., with no hazardous chemical additives - e.g., oxide boron (B2O3), essential additive for the production of a good quality fibreglass. Furthermore, the production process is completely sustainable, with low energy required - only 5kWh/kg of electricity - and low fabrication costs: that of energy (gas and electricity), is the major, it covers an half of all the production costs. Basalt fibres are superior to other chemicallyderived fibres (i.e., carbon, aramid and glass), in terms of thermal stability, heat, sound and electrical insulation, resistance to fire, chemically active and radiative environments, damages due to vibrations, and for the overall durability. Furthermore, the fibre can be completely recycled in producing new fibres, without degradation in performance. 2) KERATIN: as original raw material, Keratin can be used in the development of novel fibrous composites for a variety of uses. Being a very effective naturally-derived biopolymer it can play a fundamental role in materials chemistry for its numerous functional properties and biodegradability. For its intrinsic bioactivity and biocompatibility it can be used for developing materials for the biomedical sector. In addition, Keratins are capable to form self-assembled structures that regulate cellular recognition and behaviour for applications in tissue engineering, regenerative medicine, wound healing and drug delivery. Modified Keratins are also very important in green chemistry, where they can be functionalized in biosorption active materials for their selective binding features to link with heavy metals and toxic molecules. All the sources of raw materials from which extract the Keratins are renewable and already present in the waste

and disposal process of e.g., textile industry (i.e., wool), and poultry meat sector (i.e., feathers). The use of these sources also would provide effective solutions regarding large amounts of wastes from these industrial sectors, especially considering that, apart from a minor consumption of these types of wastes (e.g., for animal feed), disposal of the remaining bulk poses a significant environmental threat. Search n 1 Partner type Industry Companies with expertise in textile-based composite materials for petrochemical industry, construction and building, marine applications, interested in Basalt-based products Companies with expertise in green and materials chemistry, biomedical applications, safety devices, interested in Keratin-based products Search n 2 Partner type RTD RTD entities interested in research and development of Basalt-based products (material solutions) for petrochemical industry, construction and building, marine applications RTD entities interested in research and development of Keratin-based products (material solutions) for green and materials chemistry, biomedical applications, safety devices Title Mr/Ms/Prof/Dr First Giada Surname Dammacco name Title Mr/Ms/Prof/Dr First Enrico Surname Cozzoni name Organisation name GRADO ZERO ESPACE SRL E-mail addresses giada.dammacco@gradozero.eu enrico.cozzoni@gradozero.eu Direct phone number 0039-0571-80368

H2020 NMP-22-2015 11/12/2013 26/03/2015 Prime proposer organisation Centrocot (IT) Key industry partners Key research partners EU University-Sports Medicine Department Spiber Full project working title Fibre-based equipment for sport and leisure EC workprogramme topic NMP-22-2015 <Fiber-based materials for non-clothing applications> This project aims to develop and integrate new fibre-based materials in the sport sector, mainly addressing to challenging tools and training equipment and environments. Textiles and fibres will be integrated into innovative composites, to produce athletic gears, and their improvements in performance (such as flexibility, strength, durability) will be proved. Furthermore smart textiles will be integrated into training equipment or sport tools, to monitor and improve the athlete performance and to check body stress and attitudes. For example electronic sensors (smart textile pads, floor coverings, etc.) could enable the collection of spatial data, while pressure/chemical sensors, integrated into flexible substrates, could enable the monitoring of physical parameters. The targets are both extremely sectorial and widely spread sport and leisure equipment, for high level competitions or everyday use, to maximise the societal impact of the action. In this perspective the outcomes of the proposal could be exploited also for medical and wellbeing sector, with their integration into rehabilitation tools and equipment. Search n Partner type Description 1 Industry/SME Sport and leisure equipment manufacturer 2 RTD Expertise in composites required 3 Industry/SME Textile manufacturer with expertise in sensors and smart textiles 4 Industry/SME Sensor manufacturer System integrator 5 RTD Expertise in sensors and smart textiles required 6 RTD/Organization Expertise in human health monitoring and diagnosis, to highlight the training improvements and check the athlete vital parameters 7 RTD/Organization Sports and leisure associations Title Dr First name Chiara Name Besnati Organisation name Centrocot S.p.A. E-mail address ricerca@centrocot.it Direct phone number +39 0331696787 Title Ing. First name Roberto Name Vannucci Organisation name Centrocot S.p.A. E-mail address roberto.vannucci@centrocot.it Direct phone number +39 0331696778

Prime proposer organisation Tallinn University of Technology, Tallinn, Estonia Key industry partners a electrospinning company in Estonia, a spinning company in Estonia Key research partners N/A Full project working title Industrial production of functional textile yarns by electrospinning EC workprogramme topic NMP-22-2015: Fibre-based materials for non-clothing applications Non-confidential abstract (max. 100 words): The main objective of the project is utilisation of electrospinning in industrial scale by increasing productivity and durability of the process for producing nanofibre based yarns. The main task is accompanied with application of the yarns in new weaved or knitted functional textiles and composite materials. The following actions (WP-s) are planned: application of needleless methods in electrospinning of yarns; development of accurate and robust process; improvement of physical properties of the yarns; utilisation of Green solvents and sustainable solvent systems for electrospinning processes; development of electrospun yarn based textile materials and reinforcements with high marketing potential. Search n 1 Partner type Industry Short description of profile (competences required, geographic origin etc., max 100 words): Companies interested in the production of yarns by electrospinning, previous experience in electrospinning, Europe Search n 2 Partner type Industry Short description of profile (competences required, geographic origin etc., max 100 words): Companies interested in the production of functional textile materials (energy harvesting/storage, filtering/prification, sensing, protective/shielding, etc.), biomaterials, Europe Search n 3 Partner type Industry Short description of profile (competences required, geographic origin etc., max 100 words): Companies experienced in spinning, (post)processing of textile fibres and yarns, Europe Search n 4 Partner type Research Short description of profile (competences required, geographic origin etc., max 100 words): Experience in electrospinning technology, modelling and simulations, world Search n 5 Partner type Research Short description of profile (competences required, geographic origin etc., max 100 words): Experience in development of functional textile materials, biomaterials, world Title Prof First name Andres Name Krumme Organisation name Tallinn University of Technology, Department of Polymer Materials E-mail address andres.krumme@ttu.ee Direct phone number +372 620 2907

Horizon2020 NMP-22-2015 11/12/2013 26/03/2015 Prime proposer organisation Centrocot S.p.A. Key industry partners Automotive Filter Manufacturer (IT) Key research partners CleanIT Full project working title Design and production of a new concept of fabric able to purify fluids in general, neutralizing and avoiding the growth of contaminant molecules and harmful microorganisms EC workprogramme topic NMP-22-2015 < Fibre-based materials for non-clothing applications > The project aims to develop and design a new concept of fabric and/or no-woven able to clean and filter different substances as fluids (liquid and gas) to purify them and not to permit the growth and the proliferation of potential harmful microorganisms as bacteria, increasing the useful life of the product to which they belong. This new production will be focused also, where it s possible, on the use of recycled material. The involved industrial contests could be: - Automotive (antibacterial filter) - Furnishings (home, hospital, office, etc.) - Tenso-structures and light-weight buildings (awnings, gazebos, etc.) To obtain this versatility of the textile product, an application-driven design will be needed ensuring the compliance with the essential requirements in term of environment (temperature, humidity, etc.), structure of textile and other boundary conditions. Search n Partner type Description 1 Industry/RTD Producer of virgin and recycled fibres (PA, PET) 2 Industry/RTD Manufacturer of fabric and/or no-woven 3 Industry Manufacturer of chemicals 4 Industry End-users 5 RTD Environmental Research Center Title Dr First name Chiara Name Besnati Organisation name Centrocot S.p.A. E-mail address ricerca@centrocot.it Direct phone number +39 0331696787 Title Ing. First name Roberto Name Vannucci Organisation name Centrocot S.p.A. E-mail address roberto.vannucci@centrocot.it Direct phone number +39 0331696778

example H2020 NMP-02-2015 11/12/2013 26/03/2015 Prime proposer organisation Key industry partners Key research partners Full project working title EC workprogramme topic CITEVE(PT) AFF (PT) CENTI (PT); INESC (PT), ITA(DE), PORTO UNIVERSITY MEDICAL SCHOOL(PT) MEDFIT-K Customized Knitted Burn Wound Medical Textiles FoF 10-2015: Manufacturing of Custom Made Parts for Personalized Products The wound care sector is one of the most advanced in the medical industry, with a massive global demand from patients suffering from wounds, burns, and various diseases. Ensuring satisfactory wound healing is often difficult due to the dynamic nature of the skin, requiring fulfilment of multiple objectives at different stages of the healing process(1). Burn wound is the central problem in the burn patient, and successful management and timely closure of the burn wound is essential to survival. The prevention of burn wound infection is certainly critical in this process. Historically, invasive burn wound infection, or burn wound sepsis, was the leading cause of death in burn patients (2). The idea of the MEDFIT-K proposal is to develop and integrate advanced design and manufacturing small scale technology line towards customized knitted medical textiles production, for burn wound first treatment and wound dressing, within the hospital shop floor. MEDFIT-K aims at developing a research & innovation program towards the design and development of flexible small scale knitted patches production unit for burn wound textiles, with customized fitting and personalized wound healing properties, which should be operated within the hospital environment. (1)Bioactive Nanofibres for Wound Healing Applications Victor Leung, Ryan Hartwell, Heejae Yang, Aziz Ghahary, Frank Ko (2) Burn wound infections LC Cancio, M.D., PA Howard, M.D., AT McManus, SH Kim, M.D., CW Goodwin, M.D., and BA Pruitt, Jr., M.D. US Army Institute of Surgical Research, Fort Sam Houston, Texas, U.S.A. Search n Partner type Industry/Research Industry Knitting machines producers; Small Scale Laundry/Impregnation Yarn producer for medical textiles Title Mr/Ms/Prof/Dr First name Helder Name Rosendo Organisation name CITEVE E-mail address Hrosendo@citeve.pt Direct phone number +351252300300

example H2020 NMP-02-2015 11/12/2013 26/03/2015 Prime proposer organisation HOHENSTEIN INSTITUTE Key industry partners Key research partners Full project working title Personalised production of technical clothing EC workprogramme topic FoF-10-2015: Manufacturing of custom made parts for personalised products The project aims to manufacture personalised clothing products for technical and medical applications. Apart from optimized fit analysis via scanner technology, the scanning of textile and apparel will be undertaken for developing ready to use custom made parts. Other aspects of the project include design processes, customer driven small series production in Europe and mass customization of end products. It also envisages efficient supply chains for the fast production and distribution of the customised clothing products. Search n Partner type Industry/Research/Other Title Dr First name Roshan Name Paul Organisation name E-mail address r.paul@hohenstein.de Direct phone number +49 7143 271 711

TEPPIES 02-2014 H2020-FoF-2015 22/10/2014 04/02/2015 Horizon 2020 Call for Factories of the Future Prime proposer organisation Key industry partners Key research partners Full project working title Helytex Ltd. Open-minded and innovative garment manufacturers with IT application experience Any with interest in the proposed topics and co-operation willingness Industrial Production of Custom-tailored Garments with New Generation Pattern-design Techniques FoF-10-2015 Manufacturing of custom made parts for personalised products EC workprogramme topic The key to radically improve personalization in Fashion Industry is the wider use of advanced IT technologies. For this developing of novelty industry-specific ERP system that: provides full data integrations from design to supply able to break with outdated industry procedures, traditions, norms, customs and concepts that hinder the application of the achievements of IT technologies and elaborating of new pattern making techniques that: ensure better body fit much more efficient than current CAD methods apply building-block concepts keep input data demand at moderate level seamlessly integrate with ERP system can open up new horizons for EU fashion industry. Search n Partner type Industry/Research/Other (delete the unnecessary) Short description of profile (competences required, geographic origin etc., max 100 words): Title Mr/Ms/Prof/Dr First name Dezso Name Horvath Organisation name Helytex Ltd. E-mail address info@helitex.eu Direct phone number +36-30-5043137

H2020 FoF-10-2015 11/12/2013 26/03/2015 Prime proposer organisation Institut für Textiltechnik _RWTH Aachen University Key industry partners Key research partners Full project working title EC workprogramme topic tbd Swerea IVF, Sweden; Citeve Textile Technology, Portugal; University of Leeds, UK McTecTex Mass Customised textile design and manufacturing FoF-10-2015: Manufacturing of custom made parts for personalised products Innovative production and supply chain concepts have to be carried out by implementing new machines and processes. In most cases the data transfer from designing the individual textile pattern (eg. by the customer) to the knitting machine control is challenging due to a missing integration of seamless data transfer into the process chain. By using e.g. the internet of things and/or services and new simulation approaches the connection of interfaces between design and manufacturing can be improved. The more flexible the individual product-service data can be transformed to manufacturing, the more flexible the product is realisable. Therefore, a system which enables to gain the customer s requirements regarding the product and transfer these directly to corresponding machine parameters along the entire process chain will be developed. In addition, a production guide system is to be developed in order to manage the control production along the value-added chain. Search n Partner type Industry/Research/Other (delete the unnecessary) Industry Partners: Specialist in automation/computer scientist: Programming seamless data integration from 3D scanning into machine parameters and mass production of individual requirements Knitting machine manufacturer: Delivery of a flexible (circular) knitting machine ;supporting Consortium by mechanical textile machinery know-how Machine Control development regarding MC- requirements Producer of technical or medical knitted structures: Delivery of technical requirements of the functional textile, bench marking and/or realization of the fabrics in cooperation with ITA RWTH Aachen, Germany End-User: Delivery of benchmarked product (conventional produced); know-how of market/client relevant requirements for the product Consultant: Improvement in production by linking the production with clients requirements and wishes Research Partners: Focused in research of Mass Customisation concept and consequences on client s willingness-to-pay Title Ms First name Kristina Name Simonis Organisation Institut für Textiltechnik der RWTH Aachen University name E-mail address Kristina.Simonis@ita.rwth-aachen.de Direct phone number +49 241 80 23465

example H2020 NMP-02-2015 11/12/2013 26/03/2015 Prime proposer organisation HOHENSTEIN INSTITUTE Key industry partners Key research partners Full project working title Hybrid joining techniques for flexible materials EC workprogramme topic FoF-12-2015: Industrial technologies for advanced joining and assembly processes for multi-materials The project aims to develop hybrid joining and assembly processes for flexible materials, including textiles. The proposed techniques involve plasma treatments, laser welding process, bonding using adhesives and mechanical joining. All types of joints will be tested and validated, and the developed end products will be fully recyclable and cost-effective. Search n Partner type Industry/Research/Other Title Dr First name Roshan Name Paul Organisation name E-mail address r.paul@hohenstein.de Direct phone number +49 7143 271 711

example H2020 NMP-02-2015 11/12/2013 26/03/2015 Prime proposer organisation CITEVE Key industry partners MABERA, Key research partners AITEX, UAB, NEXT TECHNOTESSILE MULTIWATER Full project working title Multi Sector On Line System For Smart Water Management EC workprogramme topic WATER-1b-2015 Multiwater - Multi Sector On-line Smart Water Management System, aims to develop a multiparameter water monitoring system, for safe water reduction, recycling and reuse that can be applied to multiple industrial sectors. The project implementation will be focus on Textile Industry and then exploited to other business activities. The water management system (Multiwater) will include a monitoring and controlling scheme, which will comprise a sensor network placed in water conducts of the industrial process, and those sensors will be connected to a central computer that will provide data related to water parameters allowing a smart and safe decision on water destination or use. On-line sensor systems will measure continuously several parameters, like ph, temperature, colour, turbidity or conductivity on wastewaters streams and the software program will decide if the stream can be reuse or used as fresh water in another process and also decide about the heat recovery of wastewaters streams. This system will also decide about the water quantity needed in a certain productive step, optimizing that industrial process. The smart decision aiming a safe reuse of process water, from the point of view of process and product quality will be based on existing research knowledge on water contaminants influence at different concentrations on the industrial processes where that water is to be reused. This proposal is built upon the original Multiwater proposal already submitted in 2011 but now reviewed and oriented to this new topic. Search n Partner type Industry/Research Title Mr/Ms/Prof/Dr First name Helder Name Rosendo Organisation name CITEVE E-mail address Hrosendo@citeve.pt Direct phone number +351252300300

example H2020 NMP-02-2015 11/12/2013 26/03/2015 Prime proposer organisation HOHENSTEIN INSTITUTE Key industry partners Key research partners Full project working title Treatment processes for industrial wastewaters EC workprogramme topic WATER-1b-2015: Demonstration/pilot activities The project aims to commercialise water treatment processes for industrial wastewaters and will emphasise on the aspects such as: water treatment, reuse and recycling. Special focus is given to the treatment of industrial laundry wastewater. The sustainable and innovative solutions will be based on low cost biological processes, involving multi-stage membrane filtration and treatment in bioreactors. Search n Partner type Industry/Research/Other Title Dr First name Roshan Name Paul Organisation name E-mail address r.paul@hohenstein.de Direct phone number +49 7143 271 711

example H2020 NMP-02-2015 11/12/2013 26/03/2015 Prime proposer organisation Key industry partners Key research partners Instytut Włókiennictwa (Textile Research Institute) Osrodek Badawczo Rozwojowy Przemysłu Płyt Drewnopochodnych (Research and Development Centre for Wood-Based Panels) Centrum Naukowo Badawcze Ochrony Przeciwpożarowej Państwowy Instytut Badawczy (Scientific and Research Centre for Fire Protection National Research Institute) ArWaTex Full project working title Eco innovative development of textile aramid waste - ArWaTex EC workprogramme topic H2020-WASTE-6a-2015: Eco-innovative solutions The aim of the ArWaTex project is development of recycling methods of the post-consumer and post-production textile aramid waste. The essence of project is to develop the most suitable grinding techniques, and the eco-innovative and economic application of recycled materials as functional flame retardant boards and technical shields. Results of ArWaTex will help to solve the problem of high value unbiodegradable waste disposal and will create a new sustainable production. The work plan includes examination of grinding process, analysis and selection of recycled materials for particular purposes, development of model products and their comprehensive testing for the endusing purposes. Search n Partner type Industry /Research/Other Industry Partner (SME) preferred. Sought Partner should operate in recycling (defibration and selection the fibrous waste) and cooperate with research institution. Expected experience in textile recycling. Optimum geographical location in Middle or East Europe. Title Dr First name Malgorzata Name Cieslak Organisation name Textile Research Institute E-mail address cieslakm@iw.lodz.pl Direct phone number +48422534405