Validating Rocket Thermal Protection Before A Space-Shot Launch

FLIR Systems
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FLIR Systems reports on how the University of Southern California (USC) Rocket Propulsion Lab have used a FLIR T540 thermal camera to provide valuable data at a level unattainable with thermocouples to measure performance of rocket thermal protection

Earlier this year, the USC Rocket Propulsion Lab successfully tested Graveler II, the largest composite-cased amateur rocket motor ever successfully fired to date. Prior to rocket testing, the USC Rocket Propulsion Lab was loaned a T540 thermal camera to conduct a failure investigation if their design failed.

On test day, USC researchers powered up the T540, plugged the ambient conditions of the Mojave Desert test area into the camera, and placed it far enough away to keep the camera safe while maintaining a tight field of view. The highlights of the thermal footage captured are available on YouTube**.

The Graveler II rocket test was a complete success so no failure investigation was necessary. However, USC researchers reported that the FLIR T540 thermal camera had enabled them for the first time to get some meaningful data about how the thermal protection system on their rocket manages the heat. With these results, the USC Rocket Propulsion team are now close to obtaining their official space launch window from the FAA.

Operators of the FLIR T540 thermal camera commented " We found the T540 very intuitive and easy to use. We only needed to watch a brief tutorial video on the FLIR ResearchIR software and then were ready for the test firing".

To read this interesting application story in full please visit https://www.flir.co.uk/discover/rd-science/validating-thermal-protection-before-a-space-shot-launch/.

For further information on the FLIR T540 please visit https://www.flir.co.uk/products/t540/ or contact FLIR Systems on +32-3665-5100 / research@flir.com.

FLIR Systems, Inc. is a world leader in the design, manufacture, and marketing of sensor systems that enhance perception and awareness. FLIR’s advanced thermal imaging and threat detection systems are used for a wide variety of imaging, thermography, and security applications, including airborne and ground-based surveillance, condition monitoring, research and development, manufacturing process control, search and rescue, drug interdiction, navigation, transportation safety, border and maritime patrol, environmental monitoring, and chemical, biological, radiological, nuclear, and explosives (CBRNE) detection. For more information, go to FLIR’s web site at www.FLIR.com.

Validating Rocket Thermal Protection Before A Space-Shot Launch

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