Christian Hellmich
Christian Hellmich
TU Wien - Vienna University of Technology, Institute for Mechanics of Materials and Structures
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‘Universal’microstructural patterns in cortical and trabecular, extracellular and extravascular bone materials: micromechanics-based prediction of anisotropic elasticity
A Fritsch, C Hellmich
Journal of Theoretical Biology 244 (4), 597-620, 2007
Development and experimental validation of a continuum micromechanics model for the elasticity of wood
K Hofstetter, C Hellmich, J Eberhardsteiner
European Journal of Mechanics-A/Solids 24 (6), 1030-1053, 2005
Mineral–collagen interactions in elasticity of bone ultrastructure–a continuum micromechanics approach
C Hellmich, JF Barthélémy, L Dormieux
European Journal of Mechanics-A/Solids 23 (5), 783-810, 2004
Upscaling quasi-brittle strength of cement paste and mortar: A multi-scale engineering mechanics model
B Pichler, C Hellmich
Cement and Concrete Research 41 (5), 467-476, 2011
Ductile sliding between mineral crystals followed by rupture of collagen crosslinks: experimentally supported micromechanical explanation of bone strength
A Fritsch, C Hellmich, L Dormieux
Journal of theoretical biology 260 (2), 230-252, 2009
Impact of rocks onto gravel design and evaluation of experiments
B Pichler, C Hellmich, HA Mang
International Journal of Impact Engineering 31 (5), 559-578, 2005
Can the diverse elastic properties of trabecular and cortical bone be attributed to only a few tissue-independent phase properties and their interactions?
C Hellmich, FJ Ulm, L Dormieux
Biomechanics and modeling in mechanobiology 2 (4), 219-238, 2004
Spherical and acicular representation of hydrates in a micromechanical model for cement paste: prediction of early-age elasticity and strength
B Pichler, C Hellmich, J Eberhardsteiner
Acta Mechanica 203 (3), 137-162, 2009
Are mineralized tissues open crystal foams reinforced by crosslinked collagen?—some energy arguments
C Hellmich, FJ Ulm
Journal of biomechanics 35 (9), 1199-1212, 2002
Microscopic effects on chloride diffusivity of cement pastes—a scale-transition analysis
P Pivonka, C Hellmich, D Smith
Cement and Concrete Research 34 (12), 2251-2260, 2004
Micromechanics-based conversion of CT data into anisotropic elasticity tensors, applied to FE simulations of a mandible
C Hellmich, C Kober, B Erdmann
Annals of biomedical engineering 36 (1), 108-122, 2008
Stable pitting corrosion of stainless steel as diffusion-controlled dissolution process with a sharp moving electrode boundary
S Scheiner, C Hellmich
Corrosion science 49 (2), 319-346, 2007
Micromechanical model for ultrastructural stiffness of mineralized tissues
C Hellmich, FJ Ulm
Journal of engineering mechanics 128 (8), 898-908, 2002
Mechanical behavior of hydroxyapatite biomaterials: an experimentally validated micromechanical model for elasticity and strength
A Fritsch, L Dormieux, C Hellmich, J Sanahuja
Journal of Biomedical Materials Research Part A: An Official Journal of The …, 2009
Continuum microviscoelasticity model for aging basic creep of early-age concrete
S Scheiner, C Hellmich
Journal of engineering mechanics 135 (4), 307-323, 2009
Coupling systems biology with multiscale mechanics, for computer simulations of bone remodeling
S Scheiner, P Pivonka, C Hellmich
Computer Methods in Applied Mechanics and Engineering 254, 181-196, 2013
Modeling of early-age creep of shotcrete. I: model and model parameters
J Sercombe, C Hellmich, FJ Ulm, H Mang
Journal of engineering mechanics 126 (3), 284-291, 2000
Effect of gel–space ratio and microstructure on strength of hydrating cementitious materials: An engineering micromechanics approach
B Pichler, C Hellmich, J Eberhardsteiner, J Wasserbauer, ...
Cement and Concrete Research 45, 55-68, 2013
Micromechanical modeling of solid-type and plate-type deformation patterns within softwood materials. A review and an improved approach
K Hofstetter, C Hellmich, J Eberhardsteiner
Walter de Gruyter 61 (4), 343-351, 2007
Average hydroxyapatite concentration is uniform in the extracollagenous ultrastructure of mineralized tissues: evidence at the 1–10-μm scale
C Hellmich, FJ Ulm
Biomechanics and Modeling in Mechanobiology 2 (1), 21-36, 2003
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