UAVOS has finalized the development and internal performance validation of its top-loaded composite curing oven designed for high-precision aerospace manufacturing.
The system was engineered to handle the thermal processing of advanced composite structures, where consistent heating is critical to material integrity. During final acceptance testing, the oven demonstrated a temperature uniformity of within ±1.7°C. This level of stability ensures repeatable curing results by maintaining thermal conditions throughout the entire heating and cooling cycle according to specific process requirements.
The hardware features an operating range from ambient temperatures up to 200°C, supported by a 2kW heating capability. To manage these cycles, the oven utilizes touchscreen-controlled programmable ramp-and-soak profiles. Airflow is managed through an architecture driven by dual high-efficiency recirculating fans, a configuration designed to distribute heat evenly while lowering energy consumption compared to standard industry curing equipment.
Aliaksei Stratsilatau, Founder and CEO of UAVOS, commented, “Industry data shows that the use of dedicated composite curing ovens in aerospace manufacturing can reduce scrap rates by up to 20–30%, lower energy consumption by approximately 15–25%, and improve overall production efficiency by 10–20% through better process control and repeatability.”
By integrating these features, UAVOS aims to support more sustainable manufacturing technologies. With the validation phase complete, the system is now ready for full operational deployment in the production of aerospace components.
The post UAVOS Validates Composite Curing Oven for Aerospace Applications appeared first on Unmanned Systems Technology.
发布者:Olivia Hannam,转转请注明出处:https://robotalks.cn/uavos-validates-composite-curing-oven-for-aerospace-applications/
