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Activewear Design
Activewear Design
About us
Members
Projects
Publications
Patents
News
Contact Us
Textile Bioengineering and Informatics Symposium
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Publications
Textile Bioengineering and Informatics Symposium
Construction of multi-component finite element model to predict biomechanical behaviour of breasts during running and quantification of the stiffness impact of internal structure.
2024
This study aims to investigate the biomechanical behaviour and the stiffness impact of the breast internal components during running.
Exploration of textile-silicone composites and materials for personal impact-resistant protection
2024
With the increasing need for personal protective equipment, textile-silicone composite structures are proposed in this study to reduce acute impact and moisture while enhancing thermal comfort.
Exploring re-entrant auxetic silicone structures to design bra pads.
2024
The deformation elasticity behaviour of re-entrant auxetic structures with a bow-tie shape, made of silicone elastomer, is systematically analysed for size accommodation and shape conformity, and compared with traditional polyurethane foam and spacer fabric used in bra pads.
Ultra-dense motion capture: an exploratory full-automatic approach for dense tracking of breast motion in 4D
2024
We propose an accurate approach to reveal such correspondence based on radial basis functions (RBFs) and a set of sparsely labelled landmarks, with a good post-alignment scheme.
Analysis of knee-bending motion through three-dimensional scanning for advancedbrace design
2024
Using 3D scanning, this study examines knee shape deformations across angles from 0° to 90° in 50 Asian males, revealing a 19% vertical and 7% horizontal strain on the patella. Knee circumference increases by 6.4% at the patella, informing knee brace sizing and design improvements.
3D printed sports shoe Midsoles: Enhancing comfort and performance through finite element analysis of negative Poisson’s ratio structures
2024
This study explores innovative running shoe midsoles using 3D-printed chiral NPR structures to boost shock absorption and support. CAD, CAE, and FEA optimize cushioning, propulsion, and stability, with wear trials validating the biomechanical benefits, showcasing superior performance in reducing forefoot stress.
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