🦾 Project FOREFLEX

Advanced Biomechatronic Prosthetics R&D

FOREFLEX is a dedicated research and engineering initiative focused on developing a high-performance, mechatronically-driven bionic leg.

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🎯 Project Objective

To engineer a functional 3D-modeled bionic limb capable of mimicking natural human gait kinematics, bridging the gap between mechanical design and advanced electromechanical actuation. Target completion for the V1 3D prototype assembly is June 2026.

⚙️ Current Development Phase

• Mechanical Architecture: Drafting initial schematics and translating concepts into precise 3D mechanical models using SolidWorks.
• Actuation Research: Evaluating and selecting high-torque, low-weight electromechanical actuators required for joint mobility and dynamic load bearing.
• Biomechanical Analysis: Analyzing human lower-limb kinematics to ensure accurate gait cycle replication and stress distribution.

🛠️ Engineering Stack

• CAD & 3D Modeling: SolidWorks
• Domain Focus: Biomechatronics, Prosthetics Design, Actuator Dynamics

📅 R&D Roadmap

• Initial conceptualization and anatomical sketching
• Electromechanical component research (Motors & Actuators)
• 3D CAD modeling of individual limb components
• Full SolidWorks assembly simulation (Target: June 2026)
• Control system and sensor integration planning

"Engineering hardware that moves with intention."