17/18 January 2007 Wiener Neustadt - Czelo
17/18 January 2007 Wiener Neustadt - Czelo 17/18 January 2007 Wiener Neustadt - Czelo
Faculty of Materials Science and Technology STU Address J. Bottu 24 Slovak Republic 0 - Trnava Phone / Fax 00421918646038 / www www.stuba.sk/buxus/generate_page.php?page_id=132 Size 250+ Organisation Type University Contact Person Name Ing. PhD. Martin Kusy Position Senior Assistant Email martin.kusy@stuba.sk Type of co-operation (Offered, Requested) Areas of activity Licence agreement Technical Co-operation (R&D) Requested Joint research project Requested Joint-venture agreement Manufacturing agreement Commercial agreement Financial agreement • Coatings • Surface treatment(CVD,PVD) • Simulation Engineering • Ceramic Materials/Powders • Metals and Alloys • Plastics, Polymers • Short description of company Slovak University of Technology in Bratislava (STU) is a modern educational and scientific institution. Since its foundation in the year 1937 more than 105.000 students have graduated. In average, 16.000 students study at the STU every year. At present, the STU consists of seven faculties. Activities of a Faculty of Materials Science and Technology are focused to research and development in the field of metallic and non-metallic materials, research and development in the field of technologies of industrial production with orientation to ecologically clean production, to the field of information support of technological, production and organizational systems, to identification and automation of process control. Research activities at the Department of Materials Engineering cover areas of wear resistant materials and coatings, corrosion and corrosion resistant materials, complex metallic materials with specific mechanical, physical and chemical properties, processing of Ti-based alloy for medical application, characterization and processing of polymer materials, ceramic materials – ionic conductors, structural and mechanical characterization. 1. Profile: Expertise: Microstructure analysis laboratory DESCRIPTION: A laboratory of microstructural analysis equipped with analytical techniques is available for study microstructures at micro- and nano- level using microscopic, X-ray diffraction, calorimetric methods and physical measurements (optical and electrical). A team of experienced researchers and technicians is involved in national and international projects. TECHNICAL SPECIFICATIONS: Electron transmission microscopes Jeol (200kV), Philips (300kV), X-ray diffractometers - powder diffraction, residual stress, quality and quantity, experience with semicrystalline and amorphous materials, calorimetry PE Diamond DSC, UV and IR spectrometers CURRENT STAGE OF DEVELOPMEN Laboratory equipments are ready to use. INTELLECTUAL PROPERTY RIGHTS (IPR): Know-how TYPE OF COLLABORATION SOUGH Joint research project, applied research or service for project partners. PARTNER PROFILE: Research universities and institutes, industrial partners with experience and technological background in the field of materials production and processing/modification.
University of Maribor, Faculty of Mechanical Ingineering Address Smetanova Ulica 17 Slovenia 2000 - maribor Phone / Fax 00386 2 220 7881 / 00386 2 220 7990 www Size 51-250 Organisation Type University Contact Person Name Prof. Dr. Karin Stana-Kleinschek Position Head of Institute of Enginnering Materi Email karin.stana@uni-mb.si Type of co-operation (Offered, Requested) Areas of activity Licence agreement Offered Technical Co-operation (R&D) Boths Joint research project Boths Joint-venture agreement Manufacturing agreement Commercial agreement Financial agreement • Coatings • Materials Technology • Textiles Technology • Medicine, Human Health • Short description of company The Laboratory for Characterisation and Processing of Polymers – LCPP is active within the Institute of Engineering Materials and Design at the Faculty of Mechanical Engineering, University of Maribor, and is well known for its research work on interaction of fibre surfaces with different media. At LCPP different analysis of polymers with the accent on oriented polymers are performed. Research targets are the structure of natural and chemical polymers, modification of polymer materials and evaluation of the influence of different processing parameters on structural changes, and consequently, on technological and applied properties of fibres. In this way our research work is focused on interactions on fibres surfaces, especially on the determination of the character of the accessible active interfaces (solid (fibre) /liquids – specific aqueous solutions and process chemicals) in order to judge the polymers interaction ability, their ion exchange capacity and the progress of technological processes during the manufacturing of cellulose polymer materials. Staff qualifications and equipment of the LCPP enables us to: 1) synthesise organic compounds (poly functional, guest-host, fluorescent, pharmacological, …) which are applicable for fibre surface modification using covalent bonding, 2) perform surface modification of fibres (thermal, chemical, ultrasound, sol-gel surface coating), 3) evaluate fibre surface properties (surface morphology, streaming potential, surface charge, the quality and quantity of specific dissociable and accessible polymer surface groups, their dissociation constants (pK values) in solvents of different polarity, contact angle, quality and quantity of fibre surface free energy) and adsorption character (adsorption kinetics of different adsorbents), and At LCPP also all conventional analyses of textile materials in any form (fibres, yarns, and 2D textiles such as woven and knitted fabrics), as well as polymer solutions, melts and solids are performed. These analyses include: determination of chemical composition, physical-chemical and mechanical properties, quality and damage to textile and total rheological characterisation. 1. Profile: RTD: Surface modification of oriented polymers ; Characterisation; Adsorption DESCRIPTION: Surface modification of oriented polymers in form of fibres, foils and films INNOVATIVE ASPECTS: Surface modification for specific functionalities MAIN ADVANTADGES / BENEFITS: application specific surface properties TECHNICAL SPECIFICATIONS: specific surface properties, selective interactions CURRENT STAGE OF DEVELOPMEN some processes are already patented, some are under patent
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Faculty of Materials Science and Technology STU<br />
Address J. Bottu 24 Slovak Republic<br />
0 - Trnava<br />
Phone / Fax 004219<strong>18</strong>646038 /<br />
www www.stuba.sk/buxus/generate_page.php?page_id=132<br />
Size 250+<br />
Organisation Type University<br />
Contact Person<br />
Name Ing. PhD. Martin Kusy<br />
Position Senior Assistant<br />
Email martin.kusy@stuba.sk<br />
Type of co-operation (Offered, Requested) Areas of activity<br />
Licence agreement<br />
Technical Co-operation (R&D) Requested<br />
Joint research project Requested<br />
Joint-venture agreement<br />
Manufacturing agreement<br />
Commercial agreement<br />
Financial agreement<br />
• Coatings<br />
• Surface treatment(CVD,PVD)<br />
• Simulation Engineering<br />
• Ceramic Materials/Powders<br />
• Metals and Alloys<br />
• Plastics, Polymers<br />
•<br />
Short description of company<br />
Slovak University of Technology in Bratislava (STU) is a modern educational and scientific institution. Since its<br />
foundation in the year 1937 more than 105.000 students have graduated. In average, 16.000 students study at<br />
the STU every year. At present, the STU consists of seven faculties.<br />
Activities of a Faculty of Materials Science and Technology are focused to research and development in the field<br />
of metallic and non-metallic materials, research and development in the field of technologies of industrial<br />
production with orientation to ecologically clean production, to the field of information support of technological,<br />
production and organizational systems, to identification and automation of process control.<br />
Research activities at the Department of Materials Engineering cover areas of wear resistant materials and<br />
coatings, corrosion and corrosion resistant materials, complex metallic materials with specific mechanical,<br />
physical and chemical properties, processing of Ti-based alloy for medical application, characterization and<br />
processing of polymer materials, ceramic materials – ionic conductors, structural and mechanical<br />
characterization.<br />
1. Profile: Expertise: Microstructure analysis laboratory<br />
DESCRIPTION:<br />
A laboratory of microstructural analysis equipped with analytical techniques is available for study microstructures<br />
at micro- and nano- level using microscopic, X-ray diffraction, calorimetric methods and physical measurements<br />
(optical and electrical). A team of experienced researchers and technicians is involved in national and<br />
international projects.<br />
TECHNICAL SPECIFICATIONS:<br />
Electron transmission microscopes Jeol (200kV), Philips (300kV), X-ray diffractometers - powder diffraction,<br />
residual stress, quality and quantity, experience with semicrystalline and amorphous materials, calorimetry PE<br />
Diamond DSC, UV and IR spectrometers<br />
CURRENT STAGE OF DEVELOPMEN Laboratory equipments are ready to use.<br />
INTELLECTUAL PROPERTY RIGHTS (IPR): Know-how<br />
TYPE OF COLLABORATION SOUGH Joint research project, applied research or service for project partners.<br />
PARTNER PROFILE: Research universities and institutes, industrial partners with experience and technological<br />
background in the field of materials production and processing/modification.
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