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Mesoscale modelling of concrete–a review of geometry generation, placing algorithms, constitutive relations and applications
Concrete can be considered as a heterogeneous material at mesoscale comprising of
several constituents such as aggregates, mortar and Interfacial Transition Zone (ITZ) …
several constituents such as aggregates, mortar and Interfacial Transition Zone (ITZ) …
Mechanical properties in metal–organic frameworks: emerging opportunities and challenges for device functionality and technological applications
Some of the most remarkable recent developments in metal–organic framework (MOF)
performance properties can only be rationalized by the mechanical properties endowed by …
performance properties can only be rationalized by the mechanical properties endowed by …
Charting the complete elastic properties of inorganic crystalline compounds
The elastic constant tensor of an inorganic compound provides a complete description of the
response of the material to external stresses in the elastic limit. It thus provides fundamental …
response of the material to external stresses in the elastic limit. It thus provides fundamental …
The finite cell method: a review in the context of higher-order structural analysis of CAD and image-based geometric models
The finite cell method is an embedded domain method, which combines the fictitious domain
approach with higher-order finite elements, adaptive integration, and weak enforcement of …
approach with higher-order finite elements, adaptive integration, and weak enforcement of …
Mesoscale models for concrete: Homogenisation and damage behaviour
In this paper three-dimensional geometrical models for concrete are generated taking the
random structure of aggregates at the mesoscopic level into consideration. The generation …
random structure of aggregates at the mesoscopic level into consideration. The generation …
Density functional theory predictions of the mechanical properties of crystalline materials
The mechanical properties of crystalline materials are crucial knowledge for their screening,
design, and exploitation. Density functional theory (DFT), remains one of the most effective …
design, and exploitation. Density functional theory (DFT), remains one of the most effective …
[کتاب][B] An introduction to computational micromechanics
TI Zohdi, P Wriggers - 2008 - books.google.com
In this, its second corrected printing, Zohdi and Wriggers' illuminating text presents a
comprehensive introduction to the subject. The authors include in their scope basic …
comprehensive introduction to the subject. The authors include in their scope basic …
FFT‐based homogenization for microstructures discretized by linear hexahedral elements
The FFT‐based homogenization method of Moulinec–Suquet has recently emerged as a
powerful tool for computing the macroscopic response of complex microstructures for elastic …
powerful tool for computing the macroscopic response of complex microstructures for elastic …
[کتاب][B] Seismology of azimuthally anisotropic media and seismic fracture characterization
I Tsvankin, V Grechka - 2011 - library.seg.org
As has been known for some time, velocities of elastic waves propagating in most
subsurface formations exhibit directional dependence, or seismic anisotropy. On their way to …
subsurface formations exhibit directional dependence, or seismic anisotropy. On their way to …
Small and large deformation analysis with the p- and B-spline versions of the Finite Cell Method
Abstract The Finite Cell Method (FCM) is an embedded domain method, which combines the
fictitious domain approach with high-order finite elements, adaptive integration, and weak …
fictitious domain approach with high-order finite elements, adaptive integration, and weak …