小提琴共振体壳-实体有限元模型

Q4 Engineering

Vibrations in Physical Systems Pub Date : 2020-01-01 DOI:10.21008/J.0860-6897.2020.3.08

A. Kabała, R. Barczewski

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引用次数: 1

摘要

为了模拟小提琴动力学和振动声学领域的各种问题，本文建立了小提琴共振体的有限元模型。所有参与共振体振动的小提琴部件(实体部件和壳部件)都包含在模型中。模型中考虑了用于制作小提琴零件的木材的材料特性和材料取向(各向异性)。云杉的特性已经应用到顶板(与f孔)和固体部分。枫木的特性已应用于后板，肋和桥。考虑了两个基本问题:琴身在自然振动(*频率)和弦外强迫振动(*稳态动力学)情况下的振动仿真与分析。对模拟结果进行了描述和说明。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Shell-Solid FEM Model of a Violin Resonance Body

The FEM model of a violin resonance body presented in the article has been developed in order to simulate various issues in the field of violin dynamics and vibro-acoustics. All violin parts participating in the vibrations of the resonance body (solid and shell parts) are included in the model. Material properties and material orientation (anisotropy) of wood species used to make the violin parts have been taken into account in the model. Properties of spruce have been applied to the top plate (with f-holes) and solid parts. Properties of maple have been applied to the back plate, ribs and bridge. Two basic problems were considered: simulation and analysis of violin body vibrations in the cases of natural vibrations (*Frequency) and forced vibrations excided by strings (*Steady-state dynamics). The results of simulations have been described and illustrated.

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来源期刊

Vibrations in Physical Systems Engineering-Mechanics of Materials

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0.70

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