Custom Stainless Steel Thermal Shock Chambers Meets IEC-60068-2-14

In the realm of electronics and industrial manufacturing, the need for components to withstand harsh environmental conditions is of paramount importance. The Custom Thermal Shock Chambers, designed to meet the IEC-60068-2-14, Test Na² test standards, emerge as a crucial asset in evaluating and enhancing the durability of a wide range of products.

This custom-built thermal shock chamber is dedicated to subjecting components and products to the specific thermal shock testing requirements outlined in the IEC-60068-2-14, Test Na² standard. It serves industries such as automotive, aerospace, telecommunications, and consumer electronics.

The primary goal is to assess the ability of components like circuit boards, connectors, sensors, and housings to endure rapid and extreme temperature fluctuations. By replicating the thermal shock scenarios that these components may encounter during their operational lifetimes, manufacturers can identify potential weaknesses, optimize design and manufacturing processes, and ensure the reliability and performance of their products in diverse and challenging environments.

• Robust and Insulated Chamber Structure
  The chamber is constructed with heavy-duty, heat-resistant materials that can withstand the intense thermal stresses. The walls are made of high-strength steel alloy, combined with advanced thermal insulation layers to minimize heat transfer between the hot and cold zones. The door is engineered with a reliable sealing mechanism and a viewing window, allowing operators to monitor the testing process without compromising the chamber's integrity. The interior is designed with adjustable racks and fixtures, enabling the accommodation of variously sized and shaped components and ensuring uniform exposure to the thermal shock conditions.
• Precision Temperature Control System
  Temperature Range and Cycling: Capable of achieving a wide temperature range, typically from -60°C to +150°C. The system can execute rapid temperature cycling between the hot and cold zones, with a transition time as short as a few seconds. This is essential for mimicking the abrupt temperature changes that components may experience in real-world applications, such as when a device is powered on or off, or when exposed to external heat sources. The temperature control is accurate to within ±0.3°C, providing reliable and repeatable test results.
• Intuitive Control Panel and Data Acquisition Interface
  The control panel is designed for user-friendliness, allowing operators to easily set and adjust test parameters such as temperature levels, dwell times in each zone, and the number of thermal shock cycles. It provides real-time displays of the current temperature in both zones, the status of the testing process, and any alarms or warnings. The chamber is integrated with a comprehensive data acquisition system that records all relevant test data. This includes temperature histories, cycle times, and any observable changes in the physical, electrical, or mechanical properties of the components. The data can be stored in a built-in memory or exported to external storage devices for further analysis. The system can also generate detailed test reports in various formats.
• Safety Features and Alarms
  To ensure the safety of operators and the protection of the test samples and the chamber itself, a range of safety features is incorporated. These include over-temperature and over-current protection systems, emergency stop buttons, and alarms for abnormal temperature fluctuations, equipment malfunctions, or any other safety-related issues. The chamber is also equipped with proper ventilation and exhaust systems to handle any potentially harmful gases or vapors that may be generated during the testing process.