Vibro-Acoustic and Flow Noise Full Spectrum Analysis Method. WAVE6 Provides unique analysis methods for efficiently and accurately simulating noise and vibration across the entire audible frequency range.

Overview of wave6


Acoustic Boundary Elements

Unleash Sound's Boundless Journey with Acoustic Boundary Elements


Acoustic Finite Elements

Craft Acoustic Realms: Where Finite Elements Echo Secrets of Sound


Statistical Energy Analysis (SEA)

Unveil Vibrations in Harmony: SEA - Your Bridge to Mid-High Frequency Insights


Structural Finite Elements

Sculpting Strength and Sound: Structural Finite Elements Shape Vibrations

Explore the Capabilities of wave6

Acoustic Boundary Elements

Acoustic Boundary Elements are a tool to comprehend how sound waves travel in enclosed or open acoustic spaces at low frequencies. With Wave6, you can simplify simulations by focusing on surface meshes, mirroring sound's expansion into unbounded regions and depicting structural interactions within complex acoustic environments.

Acoustic Finite Elements

Acoustic Finite Elements delve into the behavior of sound in confined acoustic settings, especially those with high surface-to-volume ratios. Utilizing Wave6, you can effortlessly model these environments by automating the process of extracting volumes, constructing volume meshes, assigning attributes, and analyzing acoustic responses. Furthermore, you can seamlessly import pre-existing models from other simulation software.

Statistical Energy Analysis (SEA)

Statistical Energy Analysis (SEA) sheds light on the vibro-acoustic behavior of components in the mid and high-frequency range. Thanks to Wave6's SEA capabilities, you can swiftly and accurately model wave propagation across intricate cross-sections, eliminating the need for guesswork. Additionally, manual adjustments to models become obsolete, streamlining your analysis process.

Structural Finite Elements

Structural Finite Elements enable the study of low-frequency vibrations within structural components. Wave6 empowers you to directly build these models, covering tasks like geometry meshing, assigning attributes, implementing constraints, and solving for structural modes. Moreover, you can leverage existing models by importing meshes and mode shapes from various third-party formats into Wave6, enhancing versatility and efficiency.

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