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[paticka_adresa] => UCT Prague
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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Physical Metallurgy
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Chemical Metallurgy
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Corrosion Engineering
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[obsah] => Universal testing machine LabTest 5.250SP1-VM
A universal machine for testing tensile, compressive and flexural strength of materials at a laboratory temperature and at elevated temperatures up to 1200°C. The machine is equipped with a laser elongation meter for accurate measurements of specimen deformation.
Atomic emission spectrometer Horiba JobinYvon GD Profiler II
The spectrometer is equipped with an RD source that can operate in pulse mode. Guided dust removal enables chemical volume and superficial profile analysis of conductive and non-conductive specimens.
Scanning electron microscope TESCAN VEGA 3 LMU
The scanning electron microscope TESCAN VEGA 3 LMU enables monitoring of conductive and non-conductive due to the possibility to modify pressure in the working chamber. With EDS analyser OXFORD Instruments INCA 350 it also provides chemical micro-analysis of tested specimens.
Hydraulic cut-off saw ATM Brillant 220
The saw enables precision cutting of a wide range of materials starting with polymers over metallic material to ceramics. Corundum, diamond or CBD grinding wheels can be used for cutting. The saw is equipped with water cooling to mitigate thermal impact on material.
Hardness testers
The DMMCE owns hardness testers for hardness indentation tests according to Vickers, Brinell and Rockwell.
Vacuum induction furnace
An upgraded vacuum induction furnace Leybold-Heraeus for melting and casting in vacuum or inert atmosphere.
Muffle furnaces
Muffle furnaces for annealing at temperatures up to 1200 °C equipped with a programmable regulator for accurate temperature cycle setting.
Centrifugal atomizer
Equipment for production of fast-solidified aluminium alloy powder by centrifugal atomization. The equipment is furnished with induction heating for melting batches of max. 1 kg. The cooling rate is approximately 102 K/s.
Fast-cooling equipment based on the melt-spinning method
Equipment for the production of fast-solidified aluminium alloy bands by centrifugal atomization. The equipment is furnished with induction heating for melting batches of max. 40 g. The cooling rate is approximately 103-105 K/s.
Zwick micro-hardness tester
The micro-hardness tester provides testing of micro-hardness and hardness according to Vickers within the range of 50 g to 30 kg.
Metallographic light microscope Olympus PME3
A metallographic microscope of observations with 50 – 1000x magnification. It is equipped with polarization filters and differential interference contrast as well as a colour digital camera and the image screening, processing and analysing software.
Metallographic light microscope Carl Zeiss Neophot 2
A metallographic microscope for observations with 50 – 2000x magnification. Besides observing, it provides testing of micro-hardness according to Vickers with 5 – 100 g loading. It is equipped with a colour digital camera and the image screening, processing and analysing software.
Metallographic press
A manual metallographic press is used to press small specimens in suitable resins to facilitate grinding and polishing treatment.
Laboratory vibration mill VM4
The equipment mills raw materials up to the hardness 9 of the Mohs hardness scale in a one-off batch up to 200 g and a grain-size up to 10 mm. It is equipped with a time switch.
Vibratory sieve shaker Fritsch Analysette 3
The sieve shaker provides a quantitative analysis of solid substance grain size (4 mm - 45 mm) with an optional amplitude and sieving time.
Atomic absorption spectrometer GBC 932Plus
The equipment is used to identify concentrations of predominantly metallic elements in solutions. The form of atomization is flame atomization (air-acetylene or N2O-acetylene). Detection limits and the scope of analysed concentrations depend on the specific element and matrix, their abundance is usually expressed in ppm, or, as the case may be, in ppb.
Autoclave Büchi Glas Uster
The autoclave is used to leach materials in various media under elevated pressures and temperatures. The 1l glass reactor is equipped with a teflon anchor stirrer. The maximum pressure is 600 kPa and the maximum temperature is 120 °C. Heating is ensured through a double-shell reactor.
Autoclave Parr
The equipment enables etching of materials in various media under high pressures and temperatures. The reaction vessel that is made of Hastelloy is equipped with a 1.8 l glass core. The internal device consists of a cooling coil enabling managed cooling and a mixer made of Hastelloy. The maximum pressure is 10 MPa, temperature 300°C. Heating is ensured by an electric heating shell. The autoclave is equipped with equipment for taking samples.
Stuart Scientific STR4 Rotator
The equipment is used for liquid extraction, homogenization and mixing of liquid samples. Testing tubes of various diameters and volumes are fastened in the equipment. It is equipped with a continuous regulation of the rotation speed and the timing device.
SEE System Goniometer (ADVEX Instruments)
The equipment enables determination of the wetting angle and the superficial energy.
Comtest OP Pull-Off Instrument (Coming Plus)
This apparatus can measure the coat-substrate adhesion – force/ pull-off stress.
Surftest SJ-201 roughness tester (Mitutoyo)
The equipment measures surface roughness. In addition to standard statistic values such as Ra, Rz, etc. apod. it is possible to obtain a linear record of the values when attached to PC.
Gamry and ACM Instruments potentiostats
The apparatuses support a wide range of electrochemical techniques (direct-current, impedance as well as noise) inevitable for both determination of the corrosion mechanism and accelerated tests.
Korossdata strain-stress machine
The machine enables SSRT-slow strain rate tensile test and CERT-constant elongation rate test for determination of susceptibility of a material to corrosion cracking (corrosion under a mechanical stress).
Climatic chamber KBF 240 (Binder)
The chamber supports cyclic changing of conditions – temperature and relative humidity (e.g. Volvo STD test 1027). Temperature range -10 to +60°C and RH 10 to 95%.
Climatic chamber HCP 108 (Memmert)
The chamber is a unique opportunity of testing at high temperatures and relative humidity (up to 80% RH at 80°C).
Condensation chamber KBEA 300 (Liebisch)
The condensation chamber enables testing according to ČSN EN ISO 6270-1 or ASTM D 2247 and due to the possibility of gas (SO2) dosing (SO2) even ČSN EN ISO 3231 or ČSN ISO 6988.
Glovebox
The equipment enables laboratory work and tests with dangerous substances, working in an anaerobic environment or in an environment of any gas.
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