Validation Examples - MultiDomain Model
Validation Examples - MultiDomain Model
Validation Examples - MultiDomain Model
Validation Examples - MultiDomain Model
实例 - 多区域模型
MultiDomain model in Coustyx uses the direct boundary integral formulation. The
primary variables in this formulation are the pressure and velocity on the surface
of the structure. Coustyx multidomain model solves only the interior or the exterior
problem at a time. Each mesh should enclose a volume. Go through the following multidomain
models to validate Coustyx.
- Acoustic-Structural Coupling
- Radiation (Exterior Problems - Boundary Excitation)
- Scattering
- Penetrable Concentric Spheres
- Interior Problem ( Boundary Excitation)
- Acoustic Sources (Interior Problems with Acoustic Sources inside)
- Muffler (Transmission Loss Computations)
MultiDomain model in Coustyx uses the direct boundary integral formulation. The
primary variables in this formulation are the pressure and velocity on the surface
of the structure. Coustyx multidomain model solves only the interior or the exterior
problem at a time. Each mesh should enclose a volume. Go through the following multidomain
models to validate Coustyx.
- Acoustic-Structural Coupling
- Radiation (Exterior Problems - Boundary Excitation)
- Scattering
- Penetrable Concentric Spheres
- Interior Problem ( Boundary Excitation)
- Acoustic Sources (Interior Problems with Acoustic Sources inside)
- Muffler (Transmission Loss Computations)
MultiDomain model in Coustyx uses the direct boundary integral formulation. The
primary variables in this formulation are the pressure and velocity on the surface
of the structure. Coustyx multidomain model solves only the interior or the exterior
problem at a time. Each mesh should enclose a volume. Go through the following multidomain
models to validate Coustyx.
- Acoustic-Structural Coupling
- Radiation (Exterior Problems - Boundary Excitation)
- Scattering
- Penetrable Concentric Spheres
- Interior Problem ( Boundary Excitation)
- Acoustic Sources (Interior Problems with Acoustic Sources inside)
- Muffler (Transmission Loss Computations)
MultiDomain model in Coustyx uses the direct boundary integral formulation. The
primary variables in this formulation are the pressure and velocity on the surface
of the structure. Coustyx multidomain model solves only the interior or the exterior
problem at a time. Each mesh should enclose a volume. Go through the following multidomain
models to validate Coustyx.
- Acoustic-Structural Coupling
- Radiation (Exterior Problems - Boundary Excitation)
- Scattering
- Penetrable Concentric Spheres
- Interior Problem ( Boundary Excitation)
- Acoustic Sources (Interior Problems with Acoustic Sources inside)
- Muffler (Transmission Loss Computations)
Coustyx多区域模型实例详解。
- Acoustic-Structural Coupling
- Radiation (外部问题 - 边界激励)
- Scattering
- Penetrable Concentric Spheres
- Interior (内部问题 - 边界激励)
- Acoustic Sources (内部声源问题)
- 消音器 (传输损失计算)