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Football Gloves
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0 Geometries 0 Meshes 0 Simulation setups 0 ResultsAbout this project
This project focuses on the design, 3D modeling, and simulation of advanced football gloves engineered for enhanced shock absorption and grip performance. The primary goal is to develop a glove that can resist impact forces during gameplay while maintaining superior grip to prevent the ball from slipping. The glove is designed using Sorbothane as the core shock-absorbing material, known for its high energy dissipation properties. The grip surface is enhanced with white silicone dot patterns, arranged in concentric and radial configurations, which help redistribute impact force inward toward the center of the palm. This design ensures better control of the ball and reduces the chances of slipping during high-intensity plays. The model features: Five-finger fit with breathable mesh fabric Padded knuckles for additional protection Silicone microdot grip patterns on the palm and fingertips Black base color with neon green accents and white grip pattern Using advanced simulation platforms like SimScale, the glove model is tested under various physical conditions, including: Impact force absorption (shock simulation) Thermal behavior under varying environmental conditions Stress and deformation across different hand movements Grip effectiveness during contact with the ball The outcome of the project will determine the feasibility of the glove design in real-world scenarios and suggest potential improvements in material distribution, grip design, and structural performance.
