Project description
The “Applied Nanotribology group” is investigating experimentally the influence of nanoscale effects on the friction and wear behavior of applied tribological systems. We are looking especially at the evolution of the topography of rough surfaces, the subsurface microstructure and the generation of wear particles.
Sliding surfaces can be found both in nature (e.g. in joints) and in technical systems ranging from micro-electro-mechanical systems (MEMS) to ship engines the size of a family home. During the sliding process, metallic surfaces undergoe a complex dynamic evolution which we believe to be the key for understanding sliding friction and wear. Our main goal is to observe theses dynamic processes on the nanoscale directly (on-line) and to link them to the friction and wear behavior.
You can find the latest news of the group also on Twitter
Portrait | Combi: Name Activity | Combi: Contact |
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Zouina, Omar PhD Candidate |
+49 721 204327-69 omar zouina ∂ kit edu CS 30.49 |
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Dienwiebel, Martin Professor for applied nanotribology |
+49 721 204327-77 martin dienwiebel ∂ kit edu Geb. 30.49 |
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Bandaru, Nithin Kumar Doktorand |
nithin bandaru ∂ kit edu CS 30.49 S4.04 |
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1 additional person visible within KIT only. |
Combi: Contact | Combi: Name Activity | Group | Phone |
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Fakih, Bashir Doktorand |
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+49 721 4640-748 pantcho stoyanov ∂ kit edu J.-von-Fraunhofer-Str.7, 76327 Pfinztal |
Stoyanov, Pantcho Post-Doc |
+49 721 4640-748 | |
tim feser ∂ kit edu |
Feser, Tim Dynamics of sliding metal surfaces as case study for complex systems |
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+49 721 608-48509 markus stricker ∂ kit edu 119 |
Stricker, Markus |
+49 721 608-48509 | |
Korres, Spyridon |
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felix mohr ∂ kit edu |
Mohr, Felix |