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We Are Build Tough; 
Our Tests have Proven So.

With the help of powerful computing resources and a wind tunnel, we have performed multiple numerical simulations to ensure the success of our experimental payload in the 100 percent of the cases, even in the most extreme conditions. 

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We are build tough, and our analysis has proven so.

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Structural Analysis

Even under accelerations of 10g, higher than any rocket's acceleration, our structure will resist, with its incredibly high margin of safety. Our carbon steel structure will ensure the structural success of Renaissance in any load conditions.

Thermal Analysis

We have continuously iterated our thermal analysis in order to provide the best possible thermal control for our payload. Using Finite Element Analysis, we have understood the best shapes for our cooling system, as well as the power consumption. We have been able to optimize thermal control wattage to as low as 60W for a steady-state temperature difference of 15 degrees Celsius!

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Wind Tunnel Testing

Flight vibrations can destroy rockets if they enter resonance: for this reason, we have developed a novel testing apparatus that can fit in a small scale wind tunnel, effectively proving the resilience of our system.

Computational Fluid Dynamics

CFD - Computational Fluid Dynamics - has been implemented to better understand the heat flux that enters the rocket and thus improves iteratively our thermal management system.

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