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	<title>Latest posts from topic “Стипендия за докторантура-Германия:спец. физика, прил.матем”</title>
	<description>Latest posts from topic “Стипендия за докторантура-Германия:спец. физика, прил.матем” on “forum.uni-sofia.bg”.</description>
	<link>https://www.forum.su.schools.bg/viewtopic.php?f=175&amp;t=12413</link>
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	<lastBuildDate>Thu, 18 Sep 2008 10:38:48 +0300</lastBuildDate>

	
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			<dc:creator>MariaD</dc:creator>
			<pubDate>Thu, 18 Sep 2008 10:38:48 +0300</pubDate>
			<guid>https://www.forum.su.schools.bg/viewtopic.php?f=175&amp;p=483360#p483360</guid>
			<link>https://www.forum.su.schools.bg/viewtopic.php?f=175&amp;p=483360#p483360</link>
			<title>Стипендия за докторантура-Германия:спец. физика, прил.матем</title>
			<description><![CDATA[URGENT!<br />
F.A. Finger Institute for building materials science<br />
(Faculty of civil engineering)<br />
Bauhaus-University Weimar, Germany<br />
offers a:<br />
Full position for PhD thesis funded by German Science foundation (DFG) within the<br />
research training group 1462 on the topic:<br />
“Model validation in structural engineering“<br />
Subject:<br />
Imaging of microstructure and texture in porous materials in constitutive<br />
relation – quality requirements for partial models within a model chain<br />
Supervisors: Dr. B. Möser / Prof. J. Stark, Prof. T. Schanz, Dr. M. Datcheva<br />
The study intends to reveal the influence of texture on the material models of porous<br />
materials (concrete). Texture will be measured and modelled in dependence of scale. The<br />
project deals with the consequence of texture on quality of material models on different<br />
scales (particle methods, DEM, discrete points at continuum mechanics view). Especially the<br />
influence of texture on scale transition has to be analysed, i.e. on the view of numeric<br />
homogenisation. It has to be checked how textures are already included in current models of<br />
cement and concrete hardening. Criteria have to be defined that indicate if texture has to be<br />
implemented in the mechanical model. The various approaches have to be calibrated and<br />
verified against experimental data (imaging of texture).<br />
Furthermore the treatment of texture with regard to initial-boundary value problems has to be<br />
investigated. The question arises if their consideration is significant for the quality of the<br />
model. Furthermore smeared models have to be compared to scale models.<br />
Imaging methods like electron microscopy allow us to characterize and quantify the<br />
microstructure of concrete from aggregate scale down to the meso gel pores, i.e. nanometre<br />
scale. Micro mechanic experiments under cyclic tensional and compressional loading in the<br />
environmental scanning electron microscope visualize the cracking behaviours of concrete.<br />
Thus the crack propagation on the meso- and nanoscale can be imaged under close-tonative<br />
conditions. Further micro mechanical parameters (elastic modulus) of concrete should<br />
be measured by nanoindentor experiments.<br />
Please submit your application including CV to:<br />
Prof. Tom Schanz,<br />
Bauhaus-University Weimar<br />
Faculty of Civil Engineering<br />
Coudraystr. 11<br />
D-99421 Weimar, Germany<br />
Tel. +49 (0) 3643 – 584558<br />
e-mail to: <!-- e --><a href="mailto:tom.schanz@uni-weimar.de">tom.schanz@uni-weimar.de</a><!-- e -->]]></description>
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