DESIGNING A SIMULATION MODEL OF A TEMPERATURE SENSOR UNDER CRITICAL TEMPERATURE AND SINUSOIDAL VIBRATION CONDITIONS

Abstract

Read online

Background. Vibration measurement is one of the most popular and cost-effective methods of diagnosing the overall condition of equipment and is of undeniable importance in modern technology. Thanks to this process, manufacturers and consumers can be sure of the reliability and quality of technical systems, as well as prevent possible breakdowns and failures. And the wide scope of vibration measurements in various fields confirms their versatility and importance in modern technical progress. The purpose of measuring the effects of critical temperatures on a temperature transducer is to determine how a change in critical temperature can affect the accuracy and reliability of the transducer. This will improve the quality of temperature measurement, eliminate inaccuracies and errors in equipment performance, and increase the efficiency of the equipment in various operating conditions. Materials and methods. The research method in this paper is a simulation model of the sensor, which is used to test for vibration and exposure to critical temperatures. Ansys and SolidWorks Simulation software are used to create the model to avoid costly and time-consuming test cycles. Results. As a result of the simulation modeling, the epuples of mechanical stress distribution under sinusoidal vibration and the epuples of temperature distribution under critical temperatures were constructed.

Keywords

• sensor
• imitation model
• displacement
• sensing element