Stefan Szyniszewski
YOU?
Author Swipe
View article: Numerical simulation of the in-plane response of masonry walls retrofitted with “splints and bandages” systems
Numerical simulation of the in-plane response of masonry walls retrofitted with “splints and bandages” systems Open
Unreinforced masonry (URM) buildings represent the majority of existing structures in many low-income seismic regions around the world. Most of these buildings were not designed to resist seismic loading and are characterised by poor mater…
View article: Roadmap on metamaterial theory, modelling and design
Roadmap on metamaterial theory, modelling and design Open
This Roadmap surveys the diversity of different approaches for characterising, modelling and designing metamaterials. It contains articles covering the wide range of physical settings in which metamaterials have been realised, from acousti…
View article: Biomimetic polypropylene-carbon intra-ply hybrid 3D woven composite with enhanced impact resistance
Biomimetic polypropylene-carbon intra-ply hybrid 3D woven composite with enhanced impact resistance Open
In this study, a nacre-inspired carbon-polypropylene 3D woven composite is developed. The biomimetic ‘brick-and-mortar’ design is implemented by interlacing softer polypropylene yarns with brittle carbon fibres. This novel composite was be…
View article: Computation of Material Property Fields in Heterogeneous and Multi-Material Systems Using Inverse Gauss-Seidel Method
Computation of Material Property Fields in Heterogeneous and Multi-Material Systems Using Inverse Gauss-Seidel Method Open
View article: Modelling Fracture Behaviour in Fibre-Hybrid 3D Woven Composites
Modelling Fracture Behaviour in Fibre-Hybrid 3D Woven Composites Open
Modelling fracture within 3D woven composites is a significant challenge and the subject of ongoing research due to their complex hierarchical structures. This challenge is heightened when modelling 3D woven composites with multiple fibre …
View article: Metamaterials genome: progress towards a community toolbox for ai metamaterials discovery
Metamaterials genome: progress towards a community toolbox for ai metamaterials discovery Open
Understanding the limits of the design space is a key aspect in optimising complex hierarchical structures and is vital for exploring and designing novel Metamaterials. Simultaneously, abundant data (mostly text, images, and location) aggr…
View article: In-Plane Response of Masonry Walls Retrofitted with “Splints and Bandages” Systems
In-Plane Response of Masonry Walls Retrofitted with “Splints and Bandages” Systems Open
View article: An optimization method for stochastic reconstruction from empirical data - A limestone rock strain fields study-case using digital image correlation data
An optimization method for stochastic reconstruction from empirical data - A limestone rock strain fields study-case using digital image correlation data Open
Stochastic field reconstruction is a crucial technique to improve the accuracy of modern rock simulation. It allows explicit modelling of field conditions, often employed in uncertainty quantification analysis and upsampling and upscaling …
View article: Drag Reduction of a Circular Cylinder Through the Use of an Architectured Lattice Material
Drag Reduction of a Circular Cylinder Through the Use of an Architectured Lattice Material Open
Materials with periodic architectures exhibit many beneficial characteristics such as high specific stiffness thanks to the material placement along the stress paths and the nano-scale strength amplification achieved through the use of hie…
View article: Non-cuttable material inspired by seashells
Non-cuttable material inspired by seashells Open
We created the first non-cuttable material by mimicking the unique shell structures of the abalone sea creature. The material dynamically interacts with cutting tools turning their own energy back against them. Such hierarchical material s…
View article: Publisher Correction: Non-cuttable material created through local resonance and strain rate effects
Publisher Correction: Non-cuttable material created through local resonance and strain rate effects Open
View article: Non-cuttable material created through local resonance and strain rate effects
Non-cuttable material created through local resonance and strain rate effects Open
View article: Mechanical behavior of steel and aluminum foams at elevated temperatures. Local buckling based approach toward understanding of the material system behavior
Mechanical behavior of steel and aluminum foams at elevated temperatures. Local buckling based approach toward understanding of the material system behavior Open
The objective of this study is to understand and quantify the thermo-mechanical behavior of hollow sphere (HS) steel and powder metallurgy (PM) aluminum foams over a broad range of elevated temperatures. The behavior of both the HS steel a…
View article: Damping of selectively bonded 3D woven lattice materials
Damping of selectively bonded 3D woven lattice materials Open
The objective of this paper is to unveil a novel damping mechanism exhibited by 3D woven lattice materials (3DW), with emphasis on response to high-frequency excitations. Conventional bulk damping materials, such as rubber, exhibit relativ…
View article: Damping behavior of 3D woven metallic lattice materials
Damping behavior of 3D woven metallic lattice materials Open
Cu and NiCr metallic lattice materials of two different weaving patterns and densities were manufactured with a proprietary 3-D weaving process, and this study investigated their damping behavior. The results of dynamic mechanical analysis…