As a reliable partner in precision temperature control for aerospace, our industrial chiller systems provide accurate and stable temperature management solutions across the entire process—from material development to complete vehicle testing—ensuring flight safety and mission success.
Turbine Blade Cooling Simulation: Accurately replicates high-altitude low-temperature conditions to test engine performance and durability under extreme operational scenarios.
Thermal Management System Validation: Ensures reliability and efficiency of engine cooling systems across diverse temperature conditions.
Thermal Fatigue Testing of Materials: Provides programmable temperature cycling environments for high-temperature alloy components.
Space Environment Simulation: Precisely recreates space low-temperature and vacuum conditions on Earth for full-system or subsystem testing.
Thermal Cycle Testing of Components: Validates functional stability and structural integrity of spacecraft components under drastic temperature fluctuations.
Payload Temperature Control: Ensures optical instruments and scientific payloads maintain optimal operating temperatures during testing.
Curing Process Temperature Control: Delivers precise curing temperature profiles for carbon fiber and resin-based composite materials.
Large Mold Temperature Management: Ensures consistent quality in the forming of large composite parts such as aircraft skins and wings.
Automated Production Line Integration: Seamlessly interfaces with automated fiber placement machines and autoclaves to enhance production repeatability and efficiency.
High-power Electronics Cooling: Provides efficient heat dissipation for onboard AESA radars and high-performance computing units.
Sustained Operational Temperature Assurance: Maintains stable operating temperatures for electronic systems during prolonged, high-load missions.
Ground Testing Support: Offers reliable temperature-controlled environments for electronics R&D and ground integration testing.
✅ Extreme Condition Adaptability: Designed for harsh aerospace environments, stable operation from -40°C to +50°C ambient temperatures.
✅ Military-grade Precision Control: Temperature control accuracy up to ±0.5°C, meeting the most stringent testing and manufacturing standards.
✅ Aerospace Certification: Key models certified under AS9100 quality management system, compliant with aerospace supply chain requirements.
✅ High-reliability Design: Redundant control systems and corrosion-resistant materials, MTBF > 30,000 hours.
✅ Intelligent Energy Management: Adaptive energy-saving algorithms deliver up to 35% higher efficiency compared to conventional models.
✅ Full Lifecycle Support: Comprehensive services from solution design and commissioning to remote monitoring.
EN
