•  
  •  
 

Document Type

Original Study

Keywords

Control Engineering

Abstract

Outer surface integrity must be maintained throughout the machining processduring the production of metal parts, which need the ability to monitor temperatures in realtime. Changes in temperature during the machining process lead to changes in thebehavior of the product after work is completed.To achieve quality and productivitycriteria, the metal parts manufacturing process requires a continuous and precisetemperature measuring and monitoring system by using IOT. An intelligent temperaturemeasurement can be used during machining processes on conventional, non-conventional,and computer numerical control (CNC) machines.This paper presents a performance analysis of a temperature measuring system formachining process applications via Arduino IDE. In this proposal, a temperaturemonitoring system based on Arduino is used. The system would utilize an: MLX90614infrared thermometer sensor” to measure the temperature of the workpiece duringmachining processes.The methodology's aim is to use the smart manufacturing model to measure and monitorthe arising temperatures throughout the machining process in order to build a new toolpath rapidly and efficiently. The placement of a non-contact infrared “MLX90614”temperature sensor allowed measuring of the average cutting temperature as well as themaximum cutting temperature. The data acquisition process was carried out using the“Xampp” Control Panel software, which communicated with the ESP32 “microcontroller”board using the Arduino IDE program. Experiments were carried out, so that thetemperature of the cutting, which was measured, was recorded, and the results of theexperiments were analyzed.

Download

Share

COinS