Emerging topics in nanophononics and elastic, acoustic, and mechanical metamaterials: an overview
This broad review summarizes recent advances and “hot” research topics in nanophononics
and elastic, acoustic, and mechanical metamaterials based on results presented by the …
and elastic, acoustic, and mechanical metamaterials based on results presented by the …
Rupture of 3D-printed hyperelastic composites: Experiments and phase field fracture modeling
In this work, we study the failure behavior of 3D-printed polymer composites undergoing
large deformations. Experimental results are compared to numerical simulations using the …
large deformations. Experimental results are compared to numerical simulations using the …
Active origami by 4D printing
Recent advances in three dimensional (3D) printing technology that allow multiple materials
to be printed within each layer enable the creation of materials and components with …
to be printed within each layer enable the creation of materials and components with …
Predicting stress, strain and deformation fields in materials and structures with graph neural networks
Developing accurate yet fast computational tools to simulate complex physical phenomena
is a long-standing problem. Recent advances in machine learning have revolutionized the …
is a long-standing problem. Recent advances in machine learning have revolutionized the …
Efficient design-optimization of variable-density hexagonal cellular structure by additive manufacturing: theory and validation
Cellular structures are promising candidates for additive manufacturing (AM) due to their
lower material and energy consumption. In this work, an efficient method is proposed for …
lower material and energy consumption. In this work, an efficient method is proposed for …
3D-printed origami packaging with inkjet-printed antennas for RF harvesting sensors
J Kimionis, M Isakov, BS Koh… - IEEE Transactions …, 2015 - ieeexplore.ieee.org
This paper demonstrates the combination of additive manufacturing techniques for realizing
complex 3D origami structures for high frequency applications. A 3D-printed compact …
complex 3D origami structures for high frequency applications. A 3D-printed compact …
Skin-inspired humidity and pressure sensor with a wrinkle-on-sponge structure
Sensors with multifunctions have attracted great attention for their extensive application
value, among which humidity sensing and pressure sensing are necessary to electronics …
value, among which humidity sensing and pressure sensing are necessary to electronics …
3D printed, bio-inspired prototypes and analytical models for structured suture interfaces with geometrically-tuned deformation and failure behavior
E Lin, Y Li, C Ortiz, MC Boyce - Journal of the Mechanics and Physics of …, 2014 - Elsevier
Geometrically structured interfaces in nature possess enhanced, and often surprising,
mechanical properties, and provide inspiration for materials design. This paper investigates …
mechanical properties, and provide inspiration for materials design. This paper investigates …
Transforming wave propagation in layered media via instability-induced interfacial wrinkling
S Rudykh, MC Boyce - Physical review letters, 2014 - APS
The ability to control wave propagation in highly deformable layered media with elastic
instability-induced wrinkling of interfacial layers is presented. The onset of a wrinkling …
instability-induced wrinkling of interfacial layers is presented. The onset of a wrinkling …
Natural frequency optimization of 3D printed variable-density honeycomb structure via a homogenization-based approach
It is well-known that the effective mechanical properties of cellular structures can be tuned by
varying its relative density. With the advancement of 3D printing, variable-density cellular …
varying its relative density. With the advancement of 3D printing, variable-density cellular …