Vibration control based metamaterials and origami structures: A state-of-the-art review
Vibration and sound control is critical to many practical engineering systems in order to
minimise the detrimental effects caused by unavoidable vibrations and noises …
minimise the detrimental effects caused by unavoidable vibrations and noises …
[HTML][HTML] Additive manufacturing assisted investment casting: A low-cost method to fabricate periodic metallic cellular lattices
Metallic cellular solids are a class of materials known for their high specific mechanical
properties, being desirable in applications where a combination of high strength or stiffness …
properties, being desirable in applications where a combination of high strength or stiffness …
[HTML][HTML] Anisotropic hyperelastic constitutive models for finite deformations combining material theory and data-driven approaches with application to cubic lattice …
M Fernández, M Jamshidian, T Böhlke… - Computational …, 2021 - Springer
This work investigates the capabilities of anisotropic theory-based, purely data-driven and
hybrid approaches to model the homogenized constitutive behavior of cubic lattice …
hybrid approaches to model the homogenized constitutive behavior of cubic lattice …
Unexpected bending behavior of architected 2D lattice materials
Y Yao, Y Ni, L He - Science Advances, 2023 - science.org
Architected two-dimensional (2D) lattice materials consisting of elastic beams are appealing
because of their tunable sign of Poisson's ratio. A common belief is that such materials with …
because of their tunable sign of Poisson's ratio. A common belief is that such materials with …
Design principles for 3D-printed thermally activated shape-morphing structures
T Hanuhov, N Cohen - International Journal of Mechanical Sciences, 2024 - Elsevier
Morphing structures can change their shape in response to thermal excitation and are
commonly used to enhance the performance of actuators, soft robotics, and biomedical …
commonly used to enhance the performance of actuators, soft robotics, and biomedical …
Thermally induced deformations in multi-layered polymeric struts
T Hanuhov, N Cohen - International Journal of Mechanical Sciences, 2022 - Elsevier
Stimulus activated structures that deform from a reference to target configurations are used
in various fields such as soft robotics, smart materials, and actuators. Examples of stimuli …
in various fields such as soft robotics, smart materials, and actuators. Examples of stimuli …
On the macro-and micro-deformation mechanisms of selectively laser melted damage tolerant metallic lattice structures
G Wang, X Chen, C Qiu - Journal of Alloys and Compounds, 2021 - Elsevier
Abstract 316L stainless steel lattice structures with several designs were prepared by
selective laser melting at different laser powers. The surface structure, internal porosity …
selective laser melting at different laser powers. The surface structure, internal porosity …
Nonlinear finite element analysis of lattice core sandwich plates
P Nampally, AT Karttunen, JN Reddy - International Journal of Non-Linear …, 2020 - Elsevier
A displacement-based, geometrically nonlinear finite element model is developed for lattice
core sandwich panels modeled as 2-D equivalent single-layer (ESL), first-order shear …
core sandwich panels modeled as 2-D equivalent single-layer (ESL), first-order shear …
Frequency dependent effective modulus of square grid lattice using spectral element method
A spectral element method-based formulation is developed to obtain the frequency-
dependent effective Young's and shear modulus of a two-dimensional square grid lattice …
dependent effective Young's and shear modulus of a two-dimensional square grid lattice …
A class of periodic lattices for tuning elastic instabilities
With in mind microstructures exhibiting unconventional macroscopic mechanical behaviors,
characterized by overall auxetic responses and strain localization due to local elastic …
characterized by overall auxetic responses and strain localization due to local elastic …