Inhalt des Dokuments
Dr.-Ing. Christian Liebold
TU Berlin, Institut für Mechanik
Fachgebiet Kontinuumsmechanik und Materialtheorie
Fakultät V
z.H. Herrn Liebold
Einsteinufer 5
D-10587 Berlin
- Raum MS 212a
- Tel.: 314-26440
- Sprechstunden: n.V.
Computational Reality Tutorials of how to bring problems from continuum mechanics (solid, fluid, gasous dynamics) into the variational form and then programm & solve via finite elements method under the FEniCS Project |
Link to ResearchGate |
Schwerpunkt: |
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Parameteridentifikation in höheren Kontinuumstheorien der linearen Elastizität (Strain Gradient-, Micropolar-, Couple Stress Theory). |
Dissertation: Link to ePubli |
Titel: "Größeneffekt in der Elastizität - Experimentelle, analytische und numerische Untersuchungen" |
Apparatur: |
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AFM- (atomic force micoscope) intergrierte Mikro-Ramanspektroskopie |
Gebiete der höheren Kontinuumstheorie, Elastizität, C1-stetige FEM-Forlmulierung | n. V. |
AFM/Ramanexperimente an Silizium, Balkenbiegung | n. V. |
Numerische Bestimmung des mittleren Ortes des Drehimpulses in der Festkörperdynamik (am Beispiel der Fliegenrute) | n. V. |
2006 -2011 | Diplomstudium der Physikalischen Ingenieurwissenschaft an der Technischen Universität Berlin |
seit 2012 | Wissenschaftlicher Mitarbeiter an der TU Berlin |
2015 | Promotion |
2013 | Liebold C., Müller W.H.: Measuring material coefficients of higher gradient elasticity by using AFM techniques and Raman-spectroscopy. In: Generalized continua as models for materials (Editors: Altenbach H., Forest S., Krivtsov A.), Advanced Structured Materials, 22, pp. 255–271, DOI 10.1007/978-3-642-36394-8_14, Print ISBN 978-3-642-36393-1, Online ISBN 978-3-642-36394-8, Series ISSN 1869-8433, Springer Berlin Heidelberg, 2013 |
2013 | Müller W.H., Liebold C.: FE-implementation of higher gradient theories and its use for experimental analysis. Proceedings of the XLI International Summer School – Conference: Advanced Problems in Mechanics, pp. 44–52, 2013 |
2014 | Liebold C., Müller W.H.: Strain maps on statically bend (001) silicon micro-beams using AFM-integrated Raman spectroscopy. Archive of Applied Mechanics, DOI 10.1007/s00419-014-0953-8, Print ISSN 0939-1533, Online ISSN 1432-0681, Springer Berlin Heidelberg, 2014 |
2015 | Sumelka W., Blaszczyk T., Liebold C.: Fractional Euler-Bernoulli beams: theory, numerical study and experimental validation. On arXiv:1502.01525, European Journal of Mechanics - A/Solids.Vol. 54, pp. 243–251, 2015 |
2015 | Liebold C., Müller W.H.: Are microcontinuum field theories of elasticity amenable to experiments? – A review of some recent results. In: Differential Geometry and Continuum Mechanics (Editors: Knops R., Grinfeld M.), Springer-Proceedings in Mathematics and Statistics (PROMS), Springer International Publishing Switzerland. Vol. 137, pp. 255-278, 2015 |
2015 | Liebold C.: Determination of Elastic Material Parameters in Higher-order Continua Based on Size-Dependent Bending Behavior of Epoxy and SU-8. PCM-CMM-2015 - 3rd Polish Congress of Mechanics & 21st Computer Methods in Mechanics, ISBN 978-83-932107-6-3, Volume 2, pp. 845–846 (2015) |
2015 | Liebold C., Müller W.H.: Applications of Strain Gradient Theories to the Size Effect in Submicro-Structures incl. Experimental Analysis of Elastic Material Parameters. Bulletin of TICMI Vol. 19, No. 1, 2015, pp. 45–55, 2015 |
2016 | Liebold C., Müller W.H., Reich F.A.: Modified Strain Gradient Theory and Timoshenko Beam Assumptions – A Direct Approach. Advanced Problems in Mechanics, pp. 256–265, 2016 |
2016 | Liebold C., Müller W.H.: Applications of Higher-Order Continua to Size Effects in Bending: Theory and Recent Experimental Results. In: Advanced Structured Materials, Springer International Publishing, Vol. 42, pp. 237–260, 2016 |
2016 | Liebold C., Müller W.H.: Comparison of Gradient Elasticity Models for the Bending of Micromaterials. Elsevier, Computational Materials Science 116, pp. 52–61, 2016 |
2016 | Manfred-Hirschvogel-Preis für die beste Promotion des Jahres 2015 an der Fakultät V der TU Berlin. Verliehen an allen TU9 Universitäten. |
European Mechanics Society (EUROMECH) |
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Lehrstuhl Prof. W. H. MüllerKontinuumsmechanik und Materialtheorie
Institut für Mechanik
Fakultät V
Sekr. MS2,
Raum MS 08a
Einsteinufer 5
D-10587 Berlin
Tel. +49 30 314-22332
Fax +49 30 314-24499
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