Project Beyond: Training Rocket
The project unfolded through several key stages:
Pre-Dimensioning of General Architecture: Our journey began with the preliminary design and pre-dimensioning of the rocket's overall architecture. This crucial step laid the foundation for the entire project.
3D Design on SolidWorks: With the architectural framework in place, we used SolidWorks for detailed 3D design. This digital blueprint served as our guiding reference throughout manufacturing.
Design of the Analog Timer: Precision was paramount, and we meticulously designed an analog timer to ensure accurate timing during launch and descent. The timer was used for triggering the parachute Recovery System.
Design and Validation of Parachute Recovery System: Rigorous testing and measurements were conducted to design and validate a reliable parachute recovery system, essential for the rocket's safe return.
Manufacture of the Rocket: Our team employed a variety of manufacturing techniques, including 3D printing, metal cutting, forming, and soldering, to bring our rocket design to life.
Team Coordination: Efficient organization and teamwork were vital, and I played a pivotal role in coordinating our efforts to meet project specifications and deadlines.
Liaison with Cspace: As Project Manager, I liaised between Cspace and our project team, facilitating the necessary accreditations to ensure the rocket's readiness for launch.
Launch in Tarbes, France: Following thorough validation by security services, our rocket took to the skies in Tarbes, France, in 2022, marking the culmination of our hard work and dedication.
In 2021 and 2022, I had the privilege of leading a dedicated team of five individuals as the Project Manager for "Project Beyond." This initiative was part of the challenge organized by CNES (through Cspace) and was executed in collaboration with the ESTACA Space Odyssey association.
Skills used and learnt
Project Management
3D Design and Modeling
Analog Electronics
Team Collaboration
Regulatory Compliance
