17/18 January 2007 Wiener Neustadt - Czelo
17/18 January 2007 Wiener Neustadt - Czelo
17/18 January 2007 Wiener Neustadt - Czelo
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Brno University of Technology, Faculty of Mechanical Engineering<br />
Address Technicka 2 Czech Republic<br />
0 - Brno<br />
Phone / Fax +420541142827 /<br />
www http://lambda.fme.vutbr.cz/~pokluda/<br />
Size 250+<br />
Organisation Type University<br />
Contact Person<br />
Name Prof., Dr. Jaroslav Pokluda<br />
Position head of department<br />
Email pokluda@fme.vutbr.cz<br />
Type of co-operation (Offered, Requested) Areas of activity<br />
Licence agreement<br />
Technical Co-operation (R&D) Offered<br />
Joint research project Boths<br />
Joint-venture agreement<br />
Manufacturing agreement<br />
Commercial agreement<br />
Financial agreement<br />
• Simulation Engineering<br />
• Metals and Alloys<br />
• Mechanical Engineering<br />
•<br />
Short description of company<br />
The Brno University of Technology is the second largest technical university in the Czech Republic (20 000<br />
students). The Faculty of Mechanical Engineering (FME) has 5 000 students and 400 people in the teaching staff.<br />
I am a head of the Department of Materials Micromechanics and Applied Acoustics at the Institute of Engineering<br />
Physics FME. There are three research groups - fatigue and fracture of materials, ab initio modeling mechanical<br />
and magnetic properties of crystals and acoustic methods in materials research and civil engineering.<br />
1. Profile: Expertise: Analysis of microstructure and mechanical properties of ultra-fine- and<br />
nano-grained materials<br />
DESCRIPTION: Advanced methods for three-dimensional analysis of microstructures and surfaces, multilevel<br />
indentation testing and analysis (nano, macro, macro), vibrational testing of mechanical properties (elastic,<br />
internal friction, fatigue) of small specimens in the temperature range of (-120, +150) oC, mezoscopic and<br />
atomistic models for physical interpretation of fatigue and fracture characteristics,<br />
INNOVATIVE ASPECTS: unique experimental and theoretical methods recently published in highly impacted<br />
scientific journals.<br />
MAIN ADVANTADGES / BENEFITS: 3D reconstruction of materials microstructure from 2D materialographical<br />
samples using methodology based on a wide set of computer-aided 3D tesselations. Coupling of multilevel<br />
indentation, surface roughness analysis and vibrational testing to establish new relationships between<br />
microstructure and mechanical properties.<br />
PhD students available for performing measurements and evaluation of data.<br />
TECHNICAL SPECIFICATIONS:<br />
A special device for advanced materials testing equipped by the Brüel&Kjær MM 0002 electromagnetic vibration<br />
generator and sensor, the climatic chamber and the multi-analyzer PULSE associated with computer program<br />
codes for Fourier analysis and data evaluation through the interface RS23. Optical profilometer MicroProf FRT,<br />
Fries Research & Technology GmbH, for a three-dimensional reconstruction of the surface micromorphology and<br />
precise measurements of surface roughness parameters. Standard and high-resolution scanning and transmision<br />
electron microscopy.<br />
CURRENT STAGE OF DEVELOPMEN Ready for measurements and analyses.
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