Development and applications of 3D printing-processed auxetic structures for high-velocity impact protection: A review
Auxetic structures (AXSs) are a novel class of materials with unique mechanical deformation
behavior associated with negative Poisson ratio. The combination of AXS configurations …
behavior associated with negative Poisson ratio. The combination of AXS configurations …
Auxetic Biomedical Metamaterials for Orthopedic Surgery Applications: A Comprehensive Review
M Sun, X Hu, L Tian, X Yang, L Min - Orthopaedic Surgery, 2024 - Wiley Online Library
Poisson's ratio in auxetic materials shifts from typically positive to negative, causing lateral
expansion during axial tension. This scale‐independent characteristic, originating from …
expansion during axial tension. This scale‐independent characteristic, originating from …
Multi-task artificial neural networks and their extrapolation capabilities to predict full-body 3D human posture during one-and two-handed load-handling activities
Abstract Machine-learning based human posture-prediction tools can potentially be robust
alternatives to motion capture measurements. Existing posture-prediction approaches are …
alternatives to motion capture measurements. Existing posture-prediction approaches are …
Evaluation of ground reaction forces and centers of pressure predicted by AnyBody Modeling System during load reaching/handling activities and effects of the …
Full-body and lower-extremity human musculoskeletal models require feet ground reaction
forces (GRFs) and centers of pressure (CoPs) as inputs to predict muscle forces and joint …
forces (GRFs) and centers of pressure (CoPs) as inputs to predict muscle forces and joint …
Pressure-Reducing Design of 3D-Printed Diabetic Shoe Midsole Utilizing Auxetic Lattice Structure
J Zhang, S Lu, Y Lin, Y Wang, X Yi, W Fang - Applied Sciences, 2024 - mdpi.com
With the global rise in the prevalence of diabetes, diabetic patients need innovative footwear
designs to reduce the risk of foot ulcers. This study examined the mechanical properties of …
designs to reduce the risk of foot ulcers. This study examined the mechanical properties of …
Comparison of ten widely-use ergonomic risk assessment tools based on evaluations of various manual materials handling activities
Ergonomic risk assessment tools are commonly used to evaluate the risk of musculoskeletal
injuries during manual material handling (MMH) activities. This study aimed to compare and …
injuries during manual material handling (MMH) activities. This study aimed to compare and …
Characterization of 3D Printed Re-entrant Midsole Structure with Various Infill Density and Print Direction
I Jung, S Lee - 2024 - researchsquare.com
This study focused on manufacturing 3D printed conductive RE midsoles with two slicing
directions (horizontal and vertical) and three infill densities. Optimal 3D printing conditions …
directions (horizontal and vertical) and three infill densities. Optimal 3D printing conditions …
[PDF][PDF] Comparison of energy absorption in conventional and auxetic shoes: gait analysis and finite element modeling
MD Daei, A Nourani, M Honarmand - minerva-aset.com
ABSTRACT A three-dimensional finite element (FE) model of the heel and shoe sole was
developed to analyze the effects of materials with different Poisson's ratios for midsole on …
developed to analyze the effects of materials with different Poisson's ratios for midsole on …
[PDF][PDF] Journal of Design Against Fatigue
M Daei, A Nourani, M Honarmand - researchgate.net
ABSTRACT A three-dimensional finite element (FE) model of the heel and shoe sole was
developed to analyze the effects of materials with different Poisson's ratios for midsole on …
developed to analyze the effects of materials with different Poisson's ratios for midsole on …