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Enhanced surface area density to volume ratio results in significantly higher thermal exchange performance, ensuring efficient heat transfer for your critical applications.
Micro-structures and complex internal geometries ensure low pressure drop, enhancing system performance through efficient, smooth fluid flow and optimal heat transfer.
Monolithic designs not only significantly reduce overall weight but also simplify maintenance with fewer parts to manage, streamlining system serviceability.
Morphed topology offers unmatched design freedom. Tailored to fit available spaces, providing flexibility in form factor and enabling seamless integration into a wide range of systems.
Effective thermal management is paramount in ensuring the operational efficiency and reliability of defense systems, ranging from advanced electronics used in surveillance and communication to vehicle and aircraft systems that operate in extreme conditions. The integration of cutting-edge thermal management technologies enhances the performance, extends the lifespan, and ensures the safety of defense equipment by effectively controlling temperatures, dissipating heat, and maintaining optimal operating conditions.
This focus on thermal management not only addresses the challenges posed by the miniaturization of electronic components and the increased power densities but also contributes to the advancement of stealth capabilities and the overall effectiveness of defense operations. As such, the development and application of innovative thermal management solutions stand as a cornerstone in the evolution and sustainability of defense capabilities in the face of evolving threats and operational requirements.
Speak with us to discuss thermal solutions for vehicle cooling, electronics cooling, ship engine cooling, onboard electronics, aircraft engine cooling, avionics cooling for
Additive manufacturing, commonly known as 3D printing, has revolutionized the defense industry by offering unprecedented flexibility, efficiency, and innovation in the production of defense components and systems. This manufacturing technique brings several key benefits:
General Atomics Aeronautical Systems Inc. (GA-ASI) is a leading developer of unmanned aircraft, and is continuing their long-time collaboration with Conflux Technology on the design and manufacture of a new Fuel Oil Heat Exchanger (FOHE) for the MQ-9B. GA-ASI is developing this enhanced thermal solution for its MQ-9B SkyGuardian® and SeaGuardian® Remotely Piloted Aircraft.
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