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  • Andreas Fritsch, Christian Hellmich
  • Biology, Medicine
  • Journal of theoretical biology
  • 2007 (First Publication: 1 February 2007)
  • Bone materials are characterized by an astonishing variability and diversity. Still, because of 'architectural constraints' due to once chosen material constituents and their physical interaction,Continue Reading
  • Andreas Fritsch, Christian Hellmich, Luc Dormieux
  • Biology, Medicine
  • Journal of theoretical biology
  • 2009 (First Publication: 1 September 2009)
  • There is an ongoing discussion on how bone strength could be explained from its internal structure and composition. Reviewing recent experimental and molecular dynamics studies, we here propose a newContinue Reading
  • Bernhard L A Pichler, Christian Hellmich, Josef Eberhardsteiner
  • Mathematics
  • 2008 (First Publication: 1 March 2009)
  • Early-age stiffness and strength evolution of cement paste is studied in the framework of continuum micromechanics. Based on the self-consistent scheme, elastic and strength properties are upscaledContinue Reading
  • Christian Hellmich, Franz-Josef Ulm, Luc Dormieux
  • Materials Science, Medicine
  • Biomechanics and modeling in mechanobiology
  • 2004 (First Publication: 1 June 2004)
  • As candidates for tissue-independent phases of cortical and trabecular bone we consider (i) hydroxyapatite, (ii) collagen, (iii) ultrastructural water and non-collagenous organic matter, and (iv)Continue Reading
  • Andreas Fritsch, Luc Dormieux, Christian Hellmich, Julien Sanahuja
  • Materials Science, Medicine
  • Journal of biomedical materials research. Part A
  • 2009
  • Hydroxyapatite (HA) biomaterials production has been a major field in biomaterials science and biomechanical engineering. As concerns prediction of their stiffness and strength, we propose to goContinue Reading