[HTML][HTML] MXene/polyurethane auxetic composite foam for electromagnetic interference shielding and impact attenuation
Lightweight electromagnetic interference (EMI) shielding and impact attenuating materials
are vital to protect delicate components in portable electronics. While conductive foams are …
are vital to protect delicate components in portable electronics. While conductive foams are …
A thermodynamics-informed neural network for elastoplastic constitutive modeling of granular materials
Data-driven methods have emerged as a promising framework for material constitutive
modeling. However, traditional data-driven models are hindered by limitations arising from a …
modeling. However, traditional data-driven models are hindered by limitations arising from a …
Coupled sliding–decohesion–compression model for a consistent description of monotonic and fatigue behavior of material interfaces
A thermodynamically consistent model proposed in this work introduces a generative
symbolic framework for computational components, which can capture the inelastic behavior …
symbolic framework for computational components, which can capture the inelastic behavior …
[HTML][HTML] Research on the energy evolution characteristics and the failure intensity of rocks
L Gao, F Gao, Z Zhang, Y Xing - … Journal of Mining Science and Technology, 2020 - Elsevier
It is pretty challenging and difficult to quantitatively evaluate the intensity of dynamic
disasters in deep mining engineering. Based on the uniaxial loading-unloading experiments …
disasters in deep mining engineering. Based on the uniaxial loading-unloading experiments …
Embracing Plasticity: Unlocking the Full Potential of Flexible and Stretchable Electronics Through the Elastoplastic Behavior of Metallic Materials
Metallic materials serving as indispensable conductors critically influence the performance
of flexible electronics. Conventional structural designs have restricted metallic materials to …
of flexible electronics. Conventional structural designs have restricted metallic materials to …
A new hybrid phase-field model for modeling mixed-mode cracking process in anisotropic plastic rock-like materials
Mixed-mode cracking is widely encountered in rock-like geomaterials under compression-
controlled loadings. Some pending issues still need to be addressed. This work focuses on …
controlled loadings. Some pending issues still need to be addressed. This work focuses on …
Incorporation of tension-compression asymmetry into plastic damage phase-field modeling of quasi brittle geomaterials
Both experiments and theoretical investigations have evidenced the existence of
compressive-shear fracture mode in geomaterials like concrete, rocks and gypsum. Proper …
compressive-shear fracture mode in geomaterials like concrete, rocks and gypsum. Proper …
Brittle-ductile failure transition in geomaterials modeled by a modified phase-field method with a varying damage-driving energy coefficient
With elevated confining pressure and low temperatures, geomaterials may exhibit brittle-to-
ductile failure transition due to increased cataclastic flow. In this work, we propose a …
ductile failure transition due to increased cataclastic flow. In this work, we propose a …
[HTML][HTML] Gentle Driving of Piles (GDP) at a sandy site combining axial and torsional vibrations: Part II-cyclic/dynamic lateral loading tests
Abstract Gentle Driving of Piles (GDP) is a new technology for the vibratory installation of
tubular (mono) piles. Its founding principle is that both efficient installation and low noise …
tubular (mono) piles. Its founding principle is that both efficient installation and low noise …
A phase‐field approach for compaction band formation due to grain crushing
Compaction bands are tabular regions of localized compressive deformation with little or no
shear offset. Often observed in high‐porosity rocks, they can be classified into several …
shear offset. Often observed in high‐porosity rocks, they can be classified into several …