Overview of identification methods of mechanical parameters based on full-field measurements
This article reviews recently developed methods for constitutive parameter identification
based on kinematic full-field measurements, namely the finite element model updating …
based on kinematic full-field measurements, namely the finite element model updating …
A review of NDE techniques for hydrogels
The rapid advancements in the areas of biosensors, soft robotics, and tissue engineering
increased the demand for hydrogels (gels) and their composites. This is aided by the ease of …
increased the demand for hydrogels (gels) and their composites. This is aided by the ease of …
Characterization of hyperelastic rubber-like materials by biaxial and uniaxial stretching tests based on optical methods
Rubber-like materials exhibit a particular stress–strain behaviour known as hyperelasticity.
Several models are available in the literature for these materials, based on the definition of a …
Several models are available in the literature for these materials, based on the definition of a …
Non-covalent assembly of a super-tough, highly stretchable and environmentally adaptable self-healing material inspired by nacre
X Zhu, W Zheng, H Zhao, L Wang - Journal of Materials Chemistry A, 2021 - pubs.rsc.org
Develo** autonomous ambient temperature self-healing materials with excellent
mechanical strength is extremely challenging. Herein, inspired by nacre and mussels, we …
mechanical strength is extremely challenging. Herein, inspired by nacre and mussels, we …
Design of smart protective coatings with autonomous self-healing and early corrosion reporting properties
This work reports the design of supramolecular polyurethane coating capable of early
corrosion reporting and efficient self-healing for steel protection. Immersion experiment …
corrosion reporting and efficient self-healing for steel protection. Immersion experiment …
An open-source FEniCS-based framework for hyperelastic parameter estimation from noisy full-field data: Application to heterogeneous soft tissues
We introduce a finite-element-model-updating-based open-source framework to identify
mechanical parameters of heterogeneous hyperelastic materials from in silico generated full …
mechanical parameters of heterogeneous hyperelastic materials from in silico generated full …
Finite element model updating combined with multi-response optimization for hyper-elastic materials characterization
The experimental stress-strain curves from the standardized tests of Tensile, Plane Stress,
Compression, Volumetric Compression, and Shear, are normally used to obtain the invariant …
Compression, Volumetric Compression, and Shear, are normally used to obtain the invariant …
[HTML][HTML] Application of the virtual fields method to mechanical characterization of elastomeric materials
This paper deals with the identification of constitutive parameters of a Mooney model
suitable for hyperelastic materials. These parameters are retrieved from a multiaxial …
suitable for hyperelastic materials. These parameters are retrieved from a multiaxial …
Triaxial compression in sands using FDEM and micro-X-ray computed tomography
Triaxial compression experiments on dry Ottawa sand are numerically simulated using Finite
Discrete Element Method (FDEM) in conjunction with X-ray CT imaging. A novel framework …
Discrete Element Method (FDEM) in conjunction with X-ray CT imaging. A novel framework …
[HTML][HTML] A novel method for resolving non-unique solutions observed in fitting parameters to the Mooney Rivlin material model
Abstract The Finite Element Updating Method (FEMU) is routinely used to determine
material model parameters that cannot be directly measured. Literature has identified that …
material model parameters that cannot be directly measured. Literature has identified that …