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- Title
DETERMINATION OF CRITICAL ROTATIONAL SPEED OF CIRCULAR SAWS FROM NATURAL FREQUENCIES OF ANNULAR PLATE WITH ANALOGOUS DIMENSIONS.
- Authors
Skoblar, Ante; Andjelic, Nikola; Zigulic, Roberto
- Abstract
It is suitable to reduce thickness of circular saw when trying to enhance usability of wood raw material, but reducing thickness also causes reduction of permissible rotational speed which reduces sawing speed. If one increase circular saw rotational speed over permissible one the quality of machined surfaces will reduce because of enhanced vibrations. Permissible rotational speed can be calculated from critical rotational speed which can be defined from natural frequencies of the saw. In this article critical rotational speeds of standard clamped saws (with flat disk surface and without slots) are calculated by using finite element method and classical theory of thin plates on annular plates. Mode shapes and natural frequencies of annular plates are determined by using Bessel functions and by using polynomial functions. Obtained results suggest that standard clamped circular saws without slots and with relatively small teeth can be determined from classical theory of thin plates for annular plates with accuracy depending on clamping ratio.
- Subjects
WOOD chemistry; RAW materials; CIRCULAR saws; THICKNESS measurement; STRUCTURAL plates; ROTATIONAL motion
- Publication
International Journal for Quality Research, 2016, Vol 10, Issue 1, p177
- ISSN
1800-6450
- Publication type
Article