International Journal of Clinical Research

This article provides an in-depth analysis of the structural characteristics of the Philips 64 row 128 layer Incision Aurora CT and potential failure cases that may be encountered in daily use and maintenance. Explored the impact of human factors such as insufficient technician training, improper adjustment of limit parameters, and informal maintenance on equipment stability, as well as potential threats from environmental factors such as temperature and humidity control, use of corrosive cleaning agents, and insufficient insect and water resistance. Provide detailed daily maintenance (such as power on/off, tube preheating, cleaning and disinfection), professional maintenance (voltage inspection, emergency switch, bed board, cable and circuit board, cooling system inspection), and third-party maintenance strategies. Summarized common types of faults and provided a troubleshooting process, emphasizing the need to first investigate operational and environmental issues before delving into equipment testing to ensure stable and efficient operation of Philips 64 row 128 layer Incision Aurora CT machines.

Philips; 64 row 128 slice Incisive Aurora CT; Structural analysis; fault