Evaluation of the Vibration Signal during Milling Vertical Thin-Walled Structures from Aerospace Materials

The main functions of thin-walled structures-widely used in several industries-are to reduce the weight of the finished product and to increase the rigidity of the structure. A popular method for machining such components, often with complex shapes, is using milling. However, milling involves undesi...

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Bibliographic Details
Published in:Sensors (Basel, Switzerland) Vol. 23; no. 14; p. 6398
Main Authors: Kurpiel, Szymon, Zagórski, Krzysztof, Cieślik, Jacek, Skrzypkowski, Krzysztof, Brostow, Witold
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 14-07-2023
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Summary:The main functions of thin-walled structures-widely used in several industries-are to reduce the weight of the finished product and to increase the rigidity of the structure. A popular method for machining such components, often with complex shapes, is using milling. However, milling involves undesirable phenomena. One of them is the occurrence of vibrations caused by the operation of moving parts. Vibrations strongly affect surface quality and also have a significant impact on tool wear. Cutting parameters, machining strategies and tools used in milling constitute some of the factors that influence the occurrence of vibrations. An additional difficulty in milling thin-walled structures is the reduced rigidity of the workpiece-which also affects vibration during machining. We have compared the vibration signal for different approaches to machining thin-walled components with vertical walls made of Ti6Al4V titanium alloy and Inconel 625 nickel alloy. A general-purpose cutting tool for machining any type of material was used along with tools for high-performance machining and high-speed machining adapted for titanium and nickel alloys. A comparison of results was made for a constant material removal rate. The Short-Time Fourier Transform (STFT) method provided the acceleration vibration spectrograms for individual samples.
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ISSN:1424-8220
1424-8220
DOI:10.3390/s23146398