A walk-in high-temperature aging chamber is a testing device designed to simulate high-temperature and harsh environments for high-performance electronic products. It is a crucial experimental device for improving product stability and reliability, and an important production process for manufacturers to enhance product quality and competitiveness.

Application Areas:
Electronic Products: Computers, monitors, terminals, automotive electronics, power supplies, motherboards, monitors, switching chargers, etc.
High-Performance Electronic Products: Computer servers, network communication equipment, industrial control devices, etc.
Other Areas: Aerospace products, information electronics, instrumentation, materials, electrical engineering, biopharmaceuticals, chemical raw materials, etc.

Key Features:
Space and Design Advantages:
Spacious Interior: Easily accommodates equipment of various sizes, particularly suitable for testing large equipment and complete systems, ensuring comprehensive and accurate testing.
Accurate Temperature Control: Employs a unique air duct system design and electronic control system to maintain highly uniform and precise temperature throughout the chamber.
Wide Temperature Range: Wide settable temperature range, continuously adjustable. Temperature can be set arbitrarily within the range of +5℃ to 60℃ (or 80℃, 85℃), and higher temperature products can be customized according to customer needs.

Safety and Control

Multiple Safety Protection Systems: The system has complete protection functions, ensuring safe, long-term, stable, and fault-free operation.

Standardized Electrical Control Design: Based on standards such as GB50054-95 "Low-Voltage Power Distribution Design Code," the control system integrates aging function design, making operation simple.

Reasonable Structure: Assembled using double-sided color steel insulated panels (EPS board, polyurethane board, or rock wool board), with panel thicknesses of 50mm, 75mm, and 100mm. The warehouse body adopts a steel frame structure with aluminum profiles for fixed support, ensuring good sealing.

Testing Applications

Electronic Product Reliability Testing: Includes high-temperature aging, temperature cycle stress testing, and high-temperature and high-humidity testing. For example, server motherboards need to operate continuously for 48-72 hours in an environment of 60-85℃ to detect potential defects.

Battery Aging Testing: Divided into two modes: static aging (high-temperature storage) and dynamic aging (high-temperature cycle charge and discharge).