A thermal vacuum chamber (TVC or TVAC) is a specialized type of test equipment that simulates the environmental conditions of space. It is primarily used to evaluate the performance, durability, and reliability of spacecraft components, satellites, and other equipment intended for use in space extreme temperatures environments.
Thermal vacuum chambers play a vital role in space exploration and technology development. By providing a controlled simulation of the space environment, they help engineers identify and address potential failures before deployment. This not only ensures mission success but also enhances the safety and longevity of space equipment.
Whether launching satellites, building rovers, or testing the resilience of new materials, thermal vacuum chambers are indispensable tools in the pursuit of space innovation.
1. Vacuum Simulation
By replicating the near-vacuum of space, this chamber eliminates atmospheric pressure and convective heat transfer, mirroring conditions where a pressure of 1 x 10−6 torr corresponds to a staggering altitude of about 650,000 feet (198 kilometers). The extreme temperatures encountered at such altitudes, driven by the thermosphere’s absorption of intense solar radiation, highlight why research in this environment is paramount for guaranteeing the safety of future space missions.
2. Thermal Cycling
TVACs can simulate extreme temperature fluctuations, mimicking the conditions experienced in space when a spacecraft transitions between the sunlit and shadowed sides of orbit. These temperature shifts can range from extreme heat to freezing cold which can pose material failure and/or significant performance impact if it is not designed and tested properly. For instance, the temperatures around the ISS (International Space Station) can range from around 250°F (121°C) in direct sunlight to -250°F (-157°C) in the shade.
3. Controlled Environment
The vacuum chamber is equipped with advanced systems to monitor vacuum level. Thermal platform temperatures are controlled by our Award-Winning Synergy Controller ensuring precise control for environmental testing conditions.
Thermal vacuum chambers are critical for testing satellites, spacecraft, and other aerospace equipment, ensuring they perform optimally in the vacuum and temperature extremes of space.
Engineers use these chambers to evaluate how materials react to prolonged exposure to vacuum conditions and thermal cycling.
Advanced electronics, sensors, and communication devices are tested in a TVAC to ensure they can function reliably in space.
Compact and portable, the TotalTemp TVAC Chamber is designed for fast and efficient testing of small devices using advanced conductive heat transfer technology.
Figure 1: VmSD49-N
Temperature Range: -70°C to +175°C │ Vacuum Capability: Up to 1×10-6 Torr
VmSD49-N: Offers a 6.5″ x 7.5″ usable surface area (49 sq. in / 315 sq. cm)
VmSD144-N: Features a 12″ x 12″ usable surface area (144 sq. in / 929 sq. cm)
The TotalTemp TVAC Chamber offers unparalleled precision for applications requiring reliable vacuum and thermal testing in a portable solution.
The TotalTemp TVAC Chamber offers highly efficient advantages for conductive heat transfer in high vacuum environments. With the increasing deployment of new hardware in space, where servicing is nearly impossible, thermal vacuum testing has become a critical component in evaluating high-altitude and satellite equipment.
Our solutions are affordable and customizable to meet your specific needs. Perform simultaneously high vacuum and thermal testing without the need to rent time at an external test lab. We provide thermal platforms designed to fit your vacuum chamber, as well as complete turnkey systems. The platform shown inside the bell jar measures 6.5” x 7.5”, with other sizes and various bell jars also available
Figure 2: Early Version of the VmSD49-N
TotalTemp’s Thermal vacuum chambers (TVAC) play a critical role in aerospace environmental testing by identifying potential issues caused by drastic temperature changes and atmospheric pressure variations, conditions commonly experienced in space. Since space-bound equipment carries high stakes due to the cost of launches and the catastrophic consequences of failure, ensuring reliability through rigorous testing is essential. Furthermore, repairs or adjustments in space are both difficult and incredibly expensive, making pre-launch testing indispensable.
A significant distinction between testing for space and land systems lies in heat transfer. On Earth, air allows for heat transfer by convection, but space presents an entirely different challenge due to the absence of air. This requires testing methods that mimic the heat transfer mechanisms unique to the vacuum of space, where thermal performance heavily depends on radiation and conduction alone.
Outgassing, a phenomenon where materials release trapped gases in the vacuum environment of space, is another crucial consideration. While it may not be a significant problem on Earth, outgassing can severely compromise the function of equipment in space, requiring careful material selection and planning.
To ensure components perform effectively in the harsh conditions of space or low Earth orbit, they are tested under simulated space environments. Standardized testing protocols maximize reliability and prepare equipment for real missions.
While larger thermal vacuum chambers are often used for full-scale system testing, they are typically expensive and accessible only to larger institutions. Smaller, portable thermal vacuum chambers offer a cost-effective and flexible alternative for testing components and subsystems before integration into larger systems.
Portable TVAC chambers also have the advantage of faster vacuum levels and temperature achievement compared to larger chambers. This leads to significant benefits in efficiency, convenience, and accessibility, making these systems an excellent investment for smaller organizations or teams requiring frequent testing capabilities on demand.
With advancements in thermal vacuum technology and adherence to stringent testing standards, aerospace professionals can ensure their equipment is ready to perform reliably in space’s extreme and uncompromising environment.
Offers thermal platforms & temperature chambers designed for accurate and expedient testing. Our industry-leading platforms and temperature chambers are matched by our superior customer service.
To arrange a consultation and identify the optimal solution for your company, please contact us at (888) 712-2228 or sales@totaltemptech.com
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