NEWEX - Investigation and development of a new generation of machines for the processing of composite and nanocomposites materials
General Project Information
Horizon 2020, MSCA-RISE
Marie Skłodowska-Curie Actions: Research and Innovation Staff Exchange
Project Reference: Horizon 2020, Call: H2020-MSCA-RISE-2016
Contract Number: GA 734205
Start Date: 2017-01-01
End Date: 2020-12-31
Duration: 48 months
Project Status: Execution
Project Acronym: NEWEX
Budget: € 1,305,000.00
Reimbursement rate: 100% of the action's eligible costs
Co-financing from the Ministry of Science and Higher Education (Bonus on Horizon): PLN 454,460.00
Prof. dr hab. inż. Janusz W. SIKORA
List of participants:
- POLITECHNIKA LUBELSKA (LUT), Nadbystrzycka 38d, Lublin 20 618, Poland
- TECHNICKA UNIVERZITA V KOSICIACH (TUK), Letna 9, Kosice 042 00, Slovakia
- UNIVERSIDADE DO MINHO (UMINHO), Largo do Paco, Braga, 4704 553, Portugal
- Zamak Mercator Sp. z o. o.,Piłsudskiego 63, Skawina 32050, Poland
- Borra s.r.o., Husova 242/9, Praha 1 110 00, Czech Republic
- SEZ Krompachy a.s., Hornadska 1, Krompachy 05342, Slovakia
The main objective of the NEWEX project entitled is the exchange of researchers from the institutions participating in the project, and hence the development of their professional careers and promotion of international and inter-sector cooperation between EU countries institutions. Another objective is to foster, improve and develop permanent international and inter-sector collaboration between academic research centers (Lublin University of Technology, Technical University of Kosice, University of Minho) and industrial organizations, i.e. SMEs (Borra s.r.o., Zamak-Mercator LLC and SEZ-Krompachy a.s.).
The research and technology development activities under the NEWEX project focus on in-depth investigation and tests of the extrusion technique which is vital for several application fields, so the results will be of great value mostly to the industry, including Europe-based SMEs (producers of polymers and polymer products, producers of cosmetics, food and additive masterbatches). These R&D activities will directly improve production processes (higher efficiency, lower energy consumption, less waste).
Another rationale behind this action is to enhance the exchange of knowledge, best practices, know-how, innovations, experience, mutual cooperation and culture of work between different organizations (academia and industry-representing SMEs) and different regions and countries in Europe (Poland, Czech Republic, Slovakia, Portugal).
The overall research and technology development goal of the proposed action is twofold: to design and manufacture a pilot extruder and to test the prototype of a new generation extruder with an innovative active grooved feed section (IAGFS), an original rotational barrel segment (ORBS) and a special screw (SS) in the processing of different composite and nanocomposite materials.
The scientific and innovative objective of the project is to develop the concept, design, manufacturing and testing of an original plasticizing system of the new generation extruder, as well as to determine the extruder’s geometry and technological conditions of extrusion to increase effectiveness of this process. This innovative extruder will ensure higher polymer flow rate, better quality of extrudate mainly due to higher homogenization of mechanical and thermal properties, as well as improved structure of the material, smaller unit consumption of energy, and higher energy efficiency compared to currently used extruders. This solution is expected to outperform in all aspects the current ones by at least 10%.
The utilitarian objective of the project is to open up new possibilities mainly for polymer processing and development of new extrusion techniques and technologies in polymer processing, food and cosmetics industries.
Prof. Janusz W. SIKORA
LUBLIN UNIVERSITY OF TECHNOLOGY
DEPARTMENT OF TECHNOLOGY AND POLYMER PROCESSING
FACULTY OF MECHANICAL ENGINEERING
36 Nadbystrzycka Str.
20-618 Lublin, Poland
tel. +48 (81) 53-84-222
fax. +48 (81) 53-84-208