When placing or removing samples, the opening time of the chamber door should be minimized, and frequent opening and closing of the door should be avoided to reduce the entry of humid air from the outside.
The core prerequisite for this process is that the high-temperature aging test equipment must possess excellent temperature uniformity—that is, temperature deviations at various points within the working chamber must be controlled within an extremely smal
The control system is calibrated annually by professional engineers to ensure that the PID parameters match the actual operating conditions of the equipment.
Traditional PID control algorithms are prone to overshoot or oscillation in scenarios with rapid temperature changes, affecting recovery time.
If the circulating fan speed is insufficient, the blades are damaged, or the air duct is blocked by the sample, local temperature differences will be formed, causing temperature fluctuations.
The 2-chamber temperature shock test chamber utilizes a series of sophisticated mechanical structures, intelligent control systems, and safety mechanisms to ensure efficient, stable, and repeatable transfers.