Internal Impressum Sitemap
TU Dresden
Dept. for Innovative
Methods of Computing
Robert Müller

Robert Müller has studied physics at the Technische Universität Dresden. He is now working on the mytome formation in zebrafish and, as member of the Chair of Materials Science and Nanotechnology, on the development of osteoporotic bone morphology.


Publications of Robert Müller
  • R. Müller, A. Henss, M. Kampschulte, M. Rohnke, A. C. Langheinrich, C. Heiss, J. Janek, A. Voigt, HJ. Wilke, A. Ignatius, J. Herfurth, T. El Khassawna, A. Deutsch
    Analysis of microscopic bone properties in an osteoporotic sheep model - A combined biomechanics, FE and ToF-SIMS study
    Journal of the Royal Society Interface, 16, 151 20180793, 2019 [DOI]

  • T. El Khassawna, W. Böcker, K. Brodsky, D. Weisweiler, P. Govindarajan, M. Kampschulte, U. Thormann, A. Henss, M. Rohnke, N. Bauer, R. Müller, A. Deutsch, A. Ignatius, L. Dürselen, A. Langheinrich, K. S. Lips, R. Schnettler, C. Heiss
    Impaired extracellular matrix structure resulting from malnutrition in ovariectomized mature rats
    Histochemistry and Cell Biology, 144, 2015 [DOI]

  • S. Aland, C. Landsberg, R. Müller, F. Stenger, M. Bobeth, A. C. Langheinrich, A. Voigt
    Adaptive diffuse domain approach for calculating mechanically induced deformation of trabecular bone
    Comp. Meth. in Biomech. and Biomed. Eng., 17, 1, 31-38, 2014 [DOI]

  • R. Müller, M. Kampschulte, T. El Khassawna, G. Schlewitz, B. Hürter, W. Böcker, M. Bobeth, A. C. Langheinrich, C. Heiss, A. Deutsch, G. Cuniberti
    Change of mechanical vertebrae properties due to progressive osteoporosis: combined biomechanical and finite-element analysis within a rat model
    Med. Biol. Eng. Comput., 52, 4, 405-414, 2014 [DOI]

  • K. Zhuravleva, R. Müller, L. Schultz, J. Eckert, M. Bobeth, G. Cuniberti
    Determination of the Young’s modulus of porous ß-type Ti–40Nb by finite element analysis
    J. Mat. Des. 64, 1-8, 2014 [DOI]