• Deutsch
    • English
  • Home
  • Services
    • Machinery Acoustics
      • Noise Reduction
      • Localization
      • Mufflers and Silencers
      • Sound Absorbers
      • Structural Analysis
      • Psychoacoustics
    • Environmental Acoustics
      • Road Noise
      • Rail Noise
      • Prognosis of Noise Immission
    • Architectural Acoustics
      • Building Acoustics
      • Room Acoustics
  • Products
    • Measuring Instruments
      • Airflow resistivity meter
      • Sound absorption meter
      • Impedance tube
      • Test setup for mufflers
      • Test setup for eigenfrequencies
      • Acoustic camera
      • Sound absorption meter
      • Measuring system for room acoustics and building acoustics
      • Measuring system for sound power
    • Software
      • Muffler software
        AcoustiCalc® Silencer
      • Sound absorber software AcoustiCalc® Absorber
      • Absorption Muffler software
        AcoustiCalc® Silencer light
      • Vibroacoustics software
        M AlphaCell
  • Know-how
    • Standardized Test Methods
      • Sound absorption and sound insulation
      • Elastic modulus and loss factor
      • Airflow resistance and porosity
      • Measurement of sound power
    • Numerical Acoustics
      • FEM – Finite element method
      • BEM – Boundary element method
    • Seminars and Training Courses
      • Seminar – Basics of technical acoustics
      • Seminar – Noise control
      • Seminar – Acoustic design of mufflers and sound absorbers
      • Seminar – Acoustical testing methods
  • Company
    • News
    • Clients
    • Case Studies
    • Publications
    • Career
  • Contact
Home » Services » Machinery Acoustics » Psychoacoustics

Machinery Acoustics

3D print of mufflers

Structure-borne noise in machines and structures

Sound design

Principle of microphone arrays

Sources of noise generation

Exhaust silencers and suction mufflers

Modal analysis

Methods for noise control

Hollow metal sphere structures

Metal fiber absorbers & metal foams

BEM – Boundary element method

FEM – Finite element method

Schiffsschalldämpfer

Design of silencers and mufflers

Microphone array measurement with acoustic camera

Performance of source localization

Design of enclosure

Need a customized solution? Call us on +49 351 811 309-40 or email us.

Need a customized solution?

If you have any enquiries about our products or services you can call us at +49 (0)351 811 309-40 or use the contact form below.






    Please prove you are human by selecting the plane.

    pre: 228
    • Home
    • Services
    • Products
    • Know-how
    • Company
    • Contact
    • Impressum
    • Data Privacy Policy

    Copyright 2012 - 2025 Gesellschaft für Akustikforschung Dresden mbH

    This website uses cookies. By continuing to use the website, you agree to the use of cookies. Additional information about cookies can be found in our privacy policy.