WBE: Built for the Most Aggressive Thermal Stress Tests.

Many high-reliability industries have developed standards that mandate the use of a thermal shock test chamber to qualify products. The most well-known is the MIL-STD-883, Method 1010, which is used for military and aerospace microelectronics. The JEDEC standard JESD22-A106 is widely used in the commercial semiconductor industry for testing plastic-encapsulated devices. For the automotive industry, the AEC-Q100 and AEC-Q200 standards for integrated circuits and passive components, respectively, include rigorous thermal shock test requirements. The International Electrotechnical Commission's IEC 60068-2-14 also provides a general guideline for thermal shock testing. WBE designs its thermal shock test chamber portfolio to be fully compliant with the stringent requirements of these and other major international standards.

A thermal shock test chamber is uniquely effective at revealing hidden flaws because it exploits the physical principle of the Coefficient of Thermal Expansion (CTE). Every material expands and contracts by a different amount when its temperature changes. When two materials with different CTEs are bonded together (like a ceramic component soldered to a fiberglass circuit board), a rapid temperature change forces them to expand or contract at different rates, placing immense stress on the bond between them. This stress can cause microscopic cracks in solder joints, delamination of seals and epoxies, and cracking in brittle components. These are often latent defects that would not be visible or detectable through electrical testing but would eventually lead to a field failure. A thermal shock test chamber accelerates this failure mechanism, making it visible in the lab.

WBE's leadership in thermal shock test chamber technology is the result of a focused engineering approach that prioritizes performance and reliability. Our advantage stems from our mastery of the three critical elements of thermal shock: the transfer mechanism, the thermal systems, and the control intelligence. Our transfer mechanisms are designed for speed and durability, ensuring MIL-STD compliant transfers, cycle after cycle. Our thermal systems utilize powerful, oversized compressors and heaters that are optimized for the fastest possible temperature recovery times, a key performance metric. Finally, our control intelligence uses advanced algorithms to precisely manage the entire process, ensuring repeatable and accurate test execution. This synergistic combination of robust mechanics, powerful thermal performance, and intelligent control is what makes a WBE thermal shock test chamber the preferred choice for companies that demand the highest level of testing confidence.

The choice between a thermal shock test chamber and a rapid rate chamber depends on the specific type of thermal stress you need to simulate. A rapid rate chamber uses a single test space and rapidly changes the air temperature around a stationary product, with ramp rates typically between 5°C and 20°C per minute. This is ideal for Environmental Stress Screening (ESS) and for testing a product's response to fast but controlled temperature changes. A thermal shock test chamber, however, provides a much more severe and immediate stress. It physically moves the product between two pre-conditioned temperature zones in seconds, causing a near-instantaneous change in the product's surface temperature. This method is required by many military and aerospace standards and is superior for finding failures related to mismatched thermal expansion coefficients in bonded materials.