アプリケーションギャラリ

An acoustic point source emits a pressure wave in water that travels toward a piece of glass. Cracks are formed and propagate due to high tensile stresses developed in the glass. A fully coupled acoustic-structure interaction problem including phase field damage in solids is solved in ... 詳細を見る

蓄熱ユニットは, 太陽熱, 地熱, または廃熱源からの熱エネルギーを蓄積するために使用されます. 最もシンプルなユニットは, 家庭でよく見られる水タンクで構成され, 太陽エネルギーを検知可能熱として蓄えます. これらのタンクの熱容量は潜熱を蓄えることでさらに増加し, 潜熱蓄熱（LHS）ユニットとして利用されます. 通常, LHSタンクには, 相変化物質としてパラフィンが充填された球状カプセルが内蔵されています. この例では, 充填ベッド蓄熱タンク内の流れをモデル化し, 相変化を伴う熱伝達とLHSユニットへの充填時の局所的な熱非平衡の影響を考慮しています. 詳細を見る

Acoustic droplet ejection is a non-contact, highly controllable method for liquid handling emerging in applications such as printing, biomedical, semiconductor assembly, and mass spectroscopy. The modeling approach assumes separation of acoustic and flow time scales. First, a focused ... 詳細を見る

This model simulates the flow through a uniform inclined screen using the Screen feature in Single-Phase Flow physics and compares the results with an analytic solution. 詳細を見る

This model shows how to use the Metal Processing Module and the Optimization Module to calibrate parameters of a phase transformation model against TTT (Time Temperature Transformation) data. 詳細を見る

In this tutorial model, the far-field radiation pattern of a dipole antenna is computed in a 3D model component. Then, in a separate 3D model component, a ray is released using the far-field radiation pattern to initialize the ray's intensity, polarization, and phase. 詳細を見る

In this tutorial model, the far-field radiation pattern of a dipole antenna is computed in a 2D axisymmetric model component. Then, in a separate 3D model component, a ray is released using the far-field radiation pattern to initialize the ray's intensity, polarization, and phase. 詳細を見る

This example shows the modeling of a resin transfer molding (RTM) process for a wind turbine blade using the Two-Phase Flow, Level Set, Brinkman Equations interface. Resin is injected into a preform consisting of different composites with different anisotropic permeabilities. 詳細を見る

This model demonstrates how to simulate the propagation of guided waves in a dielectric S-bent optical waveguide. The model demonstrates that the phase approximation, required by the Electromagnetic Waves, Beam Envelopes interface, can be numerically calculated by solving an additional ... 詳細を見る

This example calculates the spectral properties of a 3D optical ring resonator. The model demonstrates how to use parts from the Wave Optics Parts Library and how to setup the Field Continuity boundary condition at boundaries, where there is a jump in the predefined phase approximation. 詳細を見る