The tolerance of machine parts working together is of great importance in terms of both functionality and cost. Especially, determining narrow tolerance ranges for machine parts produced by machining causes high cost increases. For this reason, it is desired to be able to assemble machine parts that will work with each other and to be produced with the widest possible tolerance range. In this study, an assembly system formed by combining standard machine elements on a shaft is analyzed. The manufacturers produce standard machine elements within a certain tolerance value range. In this direction, tolerances for a shaft were performed based on the tolerances of standard machine elements. This merging process started with the worst-case scenario and continued with Monte Carlo simulation to extend the tolerance range. As a result of the analysis, the tolerance value of ± 0.015 mm obtained in the worst-case scenario was expanded up to ± 0.27 mm with Monte Carlo simulation. In this way, it is possible to use a much wider tolerance range in the same mounting system and at the same time gain a benefit in cost.
: February 19, 2021
|APA||Sönmez, F , Baday, Ş . (2021). Bir Mekanik Montaj Sisteminde Tolerans Yığılması ve Tolerans Alanının Genişletilmesi . Bilecik Şeyh Edebali Üniversitesi Fen Bilimleri Dergisi , 8 (1) , 270-278 . DOI: 10.35193/bseufbd.883056|