アプリケーションギャラリ

Micromirrors are used in certain MEMS devices to control optic elements. This model of a vibrating micromirror surrounded by air uses the Thermoacoustic-Shell Interaction user interface to model the fluid-solid interaction, and it thus includes the correct viscous and thermal damping of ... 詳細を見る

This model analyzes the nonlinear transfer impedance of a tapered orifice that can be part of a perforate or microperforated plate (MPP). The analysis is carried out for various degrees of tapering of the perforate and for a frequency range. A linear analysis is set up in the frequency ... 詳細を見る

This tutorial demonstrates how to model the interaction between an acoustic field and the heat release from a flame, using the Flame Model domain feature. Modeling this interaction is important in order to understand and predict unstable acoustic modes in gas turbines and jet engines. ... 詳細を見る

This model example shows how to model nonlinear propagation of a cylindrical wave using the Nonlinear Pressure Acoustics, Time Explicit physics interface available in Acoustics Module of COMSOL Multiphysics. The interface implements the system of nonlinear acoustic equations in the form ... 詳細を見る

膜, 板, 固体などの構造物と結合した液体または気体の音響は, 多くの工学分野において重要な応用分野です. このモデルは, 固体物体と結合した3次元の音響流体現象を一般的に実証するものです. 固体物体の壁は音圧の影響を受けます. 固体からの周波数応答が計算され, 音響領域にフィードバックされることで波形を解析できます. したがって, このモデルは散乱問題の好例となります. 詳細を見る

This model simulates the pressure wave propagation in a muffler for a combustion engine. It uses a general approach for analysis of damping of the propagation of harmonic pressure waves. The model is solved in the frequency domain and provides efficient damping in a frequency range of ... 詳細を見る

This model is of the P.57 Type 4.3 Full-band Ear Simulator. The model includes the geometry of the ear canal as well as the pinna defined in the ITU-T P.57 standard. The model also includes interpolation data for an ear drum impedance ensuring correct acoustic properties of the ear. The ... 詳細を見る

In this model, sound created by a vibrating piston radiates through a baffled pipe. The impedance is measured and then used in an impedance boundary condition that replaces the surrounding air domain. This technique can be employed to reduce solution time and memory usage for large ... 詳細を見る

圧電トランスデューサーは, 電流を音圧場に変換するか, 逆に音場から電流を生成するために使用できます. これらのデバイスは, 空気中や液体中で音を発生させる必要がある用途に一般的に有用です. このような用途の例としては, フェーズドアレイマイク, 超音波装置, インクジェット液滴アクチュエーター, 創薬, ソナートランスデューサー, バイオイメージング, 音響バイオセラピューティクスなどが挙げられます. この例では, トランスデューサー内の圧電振動を, 空気や水などの流体中の音響圧力波と結合させる方法を示します. 結合して解く物理現象は, 圧電応力-ひずみ, 電場, ... 詳細を見る

Impedance tubes are used for estimating the surface impedance of various samples, for example, a layer of porous material used for sound insulation. This model shows how the five material parameters of the Johnson-Champoux-Allard model can be estimated from the pressure at two ... 詳細を見る