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Technická 5
166 28 Prague 6 – Dejvice
IČO: 60461373 / VAT: CZ60461373
Czech Post certified digital mail code: sp4j9ch
Copyright: UCT Prague 2015
Information provided by the Department of International Relations and the Department of R&D. Technical support by the Computing Centre.
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About the Department
At present, the department provides education in the Chemistry and Materials bachelor programme, specifically in two specialisations Chemistry and Technology of Materials and Chemistry of Materials applied in Automotive Industry. In addition, the Department provides education in the following bachelor programmes: Biomaterials for Surgical Applications and Conservation and Restoration of Cultural Heritage Artefacts – Handicraft Items.
In the master degree, the Department ensures education in the Chemie materiálů a materiálové inženýrství study programme, namely in the Metallic Materials specialisation. It also participates in the tuition of specialisations Nanomaterials and Conservation and Restoration of Cultural Heritage Artefacts.
In the PhD degree, the Department ensures tuition in the study programme Chemistry and Technology of Materials, namely in the specialisation Metallurgy.
Generally, the Department provides tuition in 38 courses per academic year (6 of which for the PhD study programme) and participates in tuition of 4 other courses. In the academic year 2011 / 2012, there are 21 students studying for the bachelor degree, 32 students for the master degree and 13 students for PhD degree.
In terms of structure, the Department of Metallic Materials and Corrosion Engineering consists of three working groups (physical metallurgy, chemical metallurgy, corrosion engineering), each of which contributes in their own specific way to the tuition process and research activities.
The Department co-organises several conferences specialising in metallic materials and corrosion, namely, the Aluminium conference focusing on the development of light alloys, the ACE conference focusing on corrosion and corrosion protection of materials and the Microscopy and non-destructive testing of materials conference.
The Department of Metallic materials and Corrosion Engineering established the Josef Koritta Foundation, hich was registered in November 1994. For detailed information about the Josef Koritta Foundation click here.
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About the Department
At present, the department provides education in the Chemistry and Materials bachelor programme, specifically in two specialisations Chemistry and Technology of Materials and Chemistry of Materials applied in Automotive Industry. In addition, the Department provides education in the following bachelor programmes: Biomaterials for Surgical Applications and Conservation and Restoration of Cultural Heritage Artefacts – Handicraft Items.
In the master degree, the Department ensures education in the Chemie materiálů a materiálové inženýrství study programme, namely in the Metallic Materials specialisation. It also participates in the tuition of specialisations Nanomaterials and Conservation and Restoration of Cultural Heritage Artefacts.
In the PhD degree, the Department ensures tuition in the study programme Chemistry and Technology of Materials, namely in the specialisation Metallurgy.
Generally, the Department provides tuition in 38 courses per academic year (6 of which for the PhD study programme) and participates in tuition of 4 other courses. In the academic year 2011 / 2012, there are 21 students studying for the bachelor degree, 32 students for the master degree and 13 students for PhD degree.
In terms of structure, the Department of Metals and Corrosion Engineering consists of three working groups (physical metallurgy, chemical metallurgy, corrosion engineering), each of which contributes in their own specific way to the tuition process and research activities.
The Department co-organises several conferences specialising in metallic materials and corrosion, namely, the Aluminium conference focusing on the development of light alloys, the ACE conference focusing on corrosion and corrosion protection of materials and the Microscopy and non-destructive testing of materials conference.
The Department of Metals and Corrosion Engineering established the Josef Koritta Foundation, hich was registered in November 1994. For detailed information about the Josef Koritta Foundation click here.
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[obsah] => Research at the Department of Metals and Corrosion Engineering can be divided in three groups according to their specialisation:
Physical Metallurgy
The Physical Metallurgy group studies relations among production, structure and final properties of metallic materials. It looks for ways of attaining high mechanical properties of metals (strength, hardness). It develop new materials – e.g. new superficial layers on light alloys for automotive or aircraft industry, light intermetallic compounds for high-temperature applications, smart materials for surgical implants, e.g. stents. The physical metallurgy group also develops new metallic materials for production of biodegradable implants, materials for storing hydrogen and light high-strength nano-crystalline materials.
Chemical Metallurgy
The Chemical Metallurgy group studies hydrometallurgy processes that might be employed in recovering metals from waste materials that are currently not being processed in the Czech Republic, as they are rather dumped or exported. The proposed waste-processing technologies are experimentally verified and frequently implemented in an industrial practice.
Corrosion Engineering
Corrosion Engineering focuses on protection of materials from damage caused by corrosion mechanisms. Corrosion-related losses can be approximated to 3 to 5 percent of a gross domestic product of industrially developed countries. The Corrosion Engineering group deals with the latest issues confronted by the corrosion science. For instance, it studies mechanisms of corrosion of metallic containers used for permanent storage of nuclear waste in deep final repositories or biomaterials used for surgical implants. Last but not least, the Corrosion Engineering groups focuses on protection of metallic historical artefacts.
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Head of the department: prof. Dr. Ing. Dalibor Vojtěch
Secretary of the department: Ing. Jan Stoulil, Ph.D.
Financial affairs: Ing. Petr Dvořák, Ph.D., Ing. Iva Pospíšilová
Secretary: Kateřina Wildová
Employes
prof. Ing. Pavel Lejček, DrSc.
doc. Ing. Jaroslav Bystrianský, CSc.
František Mrázek
Doktorandi
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________________________________________
E-mail: Dalibor.Vojtech@vscht.cz
Tel.:+420220444290
Room: A58
________________________________________
Title:
professor, Head of Department
Education:
• 1989-1994: ICT Prague, M. Sc. in Chemical technology of metallic and special inorganic materials
• 1994-1997: ICT Prague, Ph.D. in Physical Metallurgy
Career:
• 1996-1997: ICT Prague, Department of Metallic Materials and Corrosion Engineering, Research Fellow
• 1997-2005: ICT Prague, Department of Metallic Materials and Corrosion Engineering, Assistant Professor
• since 2005: ICT Prague, Department of Metallic Materials and Corrosion Engineering, Associate Professor
• since 2009: ICT Prague, Department of Metallic Materials and Corrosion Engineering, Head of Department
Specialisation:
• light metal alloys (Al, Mg, Ti)
• intermetallics
• powder metallurgy
• metallic biomaterials
• superficial layers
• nano-crystalline materials
• composite materials
• crystallization of metals
Lectures:
• Material Studies
• Introduction to Material Studies
• Degradation of Materials
• Composite Materials
• Physical Metallurgy (PhD studies)
• Metal Studies (PhD studies)
Membership in professional organizations and editorial boards:
• Czech Foundrymen Society
• The Czech Society for New Materials and Technologies
• European Powder Metallurgy Association
• Editorial Board of the Manufacturing Technology magazine
Research Projects:
• Krystalizace jedno-a vícefázových materiálů,2004-2008, GA AV ČR, projekt IAA1010414. (Crystallization of single- and multiphase materials – a project supported by the Grant Agency of the Czech Academy of Sciences)
• Progresívní povrchové úpravy kovů(PROSURFMET), 2005-2007, MŠMT ČR, projekt EUREKA 1P05OE192. (Progressive Metal Surface Treatment – a project supported by the Ministry of Education, Youth and Sports)
• Využití výztuží specificky určených pro GIT, 2005-2007, MPO ČR, IMPULS FI-IM2/108. (The Development of Reinforcements Specifically Designed for GIT – a project supported by the Ministry of Industry)
• Multifunkční objemové kovové materiály s nanokrystalickou a ultrajemnozrnnou strukturou, 2008-2012, AV ČR, program„Nanotechnologie pro společnost“, projekt KAN300100801. (Multifunctional bulk metallic materials with nanocrystalline and ultrafine-grained structure – a project supported by the Czech Academy of Sciences)
• Krystalizace intermetalik na bázi titanu, 2009-2011, GA AV ČR, projekt IAA200100902. (Crystallization of titanium based intermetallics – a project supported by the Grant Agency of the Czech Academy of Sciences)
• Povlaky Ni-P a kompozitní povlaky Ni-P-keramika na hliníkových slitinách, 2008-2010, GA ČR, projekt č. 104/08/1102. Ni-P coatings and composite Ni-P-ceramics coatings on Al-based alloys – a project supported by the Grant Agency of the Czech Academy of Sciences)
• Výzkum elektrochemických metod uchovávání vodíku v kovových slitinách, 2009-2011, GA ČR, projekt č. 104/09/0263. (Research on electrochemical methods of hydrogen storage in metallic alloys – a project supported by the Grant Agency of the Czech Academy of Sciences)
Notable magazine contributions:
• D. Vojtěch, P. Lejček, J. Kopeček, K. Bialasová, P. Guhlová: Properties of (Ti,Nb)Al–(Ti,Nb)5Si3 eutectic composite, Compos. Struct. 92 (2010) 1440-1448.
• D. Vojtěch, P. Guhlová, M. Morťaniková, P. Janík: Hydrogen storage by direct electrochemical hydriding of Mg-based alloys, J. Alloy. Compd. 494 (2010) 456-462.
• D. Vojtěch, J. Fojt, L. Joska, P. Novák: Surface treatment of NiTi shape memory alloy and its influence on corrosion behavior, Surf. Coat. Tech. 204 (2010) 3895-3901.
• D. Vojtěch, F. Průša, A. Michalcová: Structural and mechanical characterization of rapidly solidified Al95Ni5 and Al93Ni5Mm2 alloys prepared by centrifugal atomization, J. Alloy. Compd. 506 (2010) 581-588.
• D. Vojtěch, M. Voděrová, J. Fojt, P. Novák, J. Kubásek: Surface structure and corrosion resistance of short-time heat-treated NiTi shape memory alloy, Appl. Surf. Sci. 257 (2010) 1573-1582.
• D. Vojtěch, M. Voděrová, J. Kubásek, P. Novák, P. Šedá, A. Michalcová, J. Fojt, J. Hanuš,O. Mestek: Effects of short-time heat treatment and subsequent chemical surface treatment on the mechanical properties, low-cycle fatigue behavior and corrosion resistance of a Ni–Ti (50.9 at.% Ni) biomedical alloy wire used for the manufacture of stents, Mat. Sci. Eng. A 528 (2011) 1864-1876.
• D. Vojtěch, T. Popela, J. Kubásek, J. Maixner, P. Novák: Comparison of Nb-and Ta-effectiveness for improvement of the cyclic oxidation resistance of TiAl-based intermetallics, Intermetallics 19 (2011) 493-501.
• D. Vojtěch, V. Knotek: Study of the diffusion kinetics and mechanism of electrochemical hydriding of Mg-Ni-Mm alloys, Int. J. Hydrog. Energy 36 (2011) 6689-6697.
• D. Vojtěch, J. Kubásek, J. Šerák, P. Novák: Mechanical and corrosion properties of newly developed biodegradable Zn-based alloys for bone fixation, Acta Biomater. 7 (2011) 3515-3522.
Monographies:
• D. Vojtěch: Chemical properties of aluminium and its alloys, v: Aluminium Materials and Technologies from A to Z (kap.2.5.), Adin, s.r.o., Prešov 2007, str. 105-108.
• D. Vojtěch: Aluminium-matrix composites, v: Aluminium Materials and Technologies from A to Z (kap.10.1.), Adin, s.r.o., Prešov 2007, str. 543-559.
• D. Vojtěch: Rapidly solidified aluminium alloys with ultra-high strength and thermal stability, v: Aluminium Materials and Technologies from A to Z (kap.10.2.), Adin, s.r.o., Prešov 2007, str. 560-570.
• D. Vojtěch: Materiály a jejich mezní stavy, VŠCHT Praha (2010), 204 stran. (Materials and their threshold states)
• D. Vojtěch: Struktura a vlastnosti kovových materiálů, v: Konzervování a restaurování kovů, Ochrana předmětů kulturního dědictví z kovůa jejich slitin (kap. 2), Technické muzeum v Brně, Brno 2011, str. 104-135. (The structure and properties of metallic materials in the Conservation and Restoration of Metals, Preservation of Historical Artefacts made from Metals and their Alloys, Chapter 2, Technical Museum in Brno, Brno 2011, pages 104-135)
• D. Vojtěch: Vlastnosti zlata a stříbra, v: Konzervování a restaurování kovů, Ochrana předmětů kulturního dědictví z kovů a jejich slitin (kap. 7.5.1.), Technické muzeum v Brně, Brno 2011, str. 471-473. (The Properties of Gold and Silver in the Conservation and Restoration of Metals, Preservation of Historical Artefacts made from Metals and their Alloys, Chapter 2, Technical Museum in Brno, Brno 2011, pages 471-473)
Patents and Utility Designs:
• D. Vojtěch: Způsob přípravy silicidových ochranných vrstev na titanu, jeho slitinách a intermetalikách, patent č. CZ 299621 (2008). (The process of preparation of silicide protective layers on titanium, its alloys and intermetallics)
• D. Vojtěch: Tepelněstabilní lehká slitina na bázi hliníku, užitný vzor č. CZ 22315 U1 (2011). (Heat-resistant light aluminium-based alloy)
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