アプリケーションギャラリ

This model example shows how to model nonlinear propagation of 1D finite-amplitude Acoustic waves in fluids using Acoustics Module of COMSOL Multiphysics. The model is based on the 2nd order Westervelt equation. The one dimensional nonlinear wave equation is solved in the time domain by ... 詳細を見る

This model computes the trajectory of an ion in a uniform magnetic field using the Newtonian, Lagrangian and Hamiltonian formulations available in the Mathematical Particle Tracing interface. 詳細を見る

Creep is an inelastic time-dependent deformation which occurs when a material is subjected to stress at sufficiently high temperature, say 40% of the melting point or more. Experimental creep data (using constant stress and temperature) often display three different types of behavior ... 詳細を見る

Dielectrophoresis (DEP) occurs when a force is exerted on a dielectric particle as it is subjected to a nonuniform electric field. DEP has many applications in the field of biomedical devices used for biosensors, diagnostics, particle manipulation and filtration (sorting), particle ... 詳細を見る

これは, マルチターンの一次コイルと二次コイルに均質化アプローチを使用した単相 E コア変圧器の過渡モデルです. このモデルには, コアの磁気飽和 (B-H 曲線) の影響が含まれており, 電気回路インターフェースを使用して変圧器モデルを外部回路に接続する方法を示しています. シミュレーションは, 1つの巻数比の場合と 1000 の巻数比の場合の2つの異なるケースで実行されます. 詳細を見る

This is an example of optimal control, where the input heating power to a rod is optimized to give a certain temperature on the outside of the rod. This is where the maximum water temperature occurs, while the minimum occurs at the center. Therefore this problem corresponds to the ... 詳細を見る

This tutorial shows how to solve the full time-dependent wave equation in dispersive media such as plasmas and semiconductors. The 2D TM in-plane wave model solves for the vector potential from the wave equation and for an auxiliary electric polarization density from an ordinary ... 詳細を見る

This tutorial shows how to solve the full time-dependent wave equation in dispersive media such as plasmas and semiconductors. The 2D TM in-plane wave model solves for the vector potential from the wave equation and for an auxiliary electric polarization density from an ordinary ... 詳細を見る

このチュートリアルでは, 3つのフィジックスインターフェースを連成して蒸発冷却をモデル化する方法を説明します. 考慮する必要がある効果は, 熱伝達, 水蒸気の輸送, および流体の流れです. 湿潤表面機能は, 水蒸気のソース項を実装し, 蒸発熱源を計算するために使用されます. 湿潤空気機能は, 水分に依存する熱力学的特性を正確に定義するために使用されます. 詳細を見る

This tutorial shows how to model the propagation of acoustic waves in large pipe systems by coupling the Pipe Acoustics interface to the Pressure Acoustics interface. The tutorial is set up in both the time domain and the frequency domain. 1D pipe acoustics is used to model the ... 詳細を見る