English   Srpski

Equipment

  img03   img02  


During the SENVIBE project, the Faculty of Mechanical and Civil Engineering in Kraljevo was equipped with modern measuring equipment for the needs of the Laboratory for Acoustics and Technical Diagnostics, equipment for video-conference work, as well as literature in the field of sound and vibrations.

MEASUREMENT EQUIPMENT

The measuring equipment acquired in the SENVIBE project is complementary to the existing equipment of the Laboratory for Acoustics and Technical Diagnostics, and consists of:

  • Sound Intensity Probe Type 3654
  • Sound Intensity Calibrator Type 4297
  • Sound Intensity Mapping Software Type 7962
  • Hand-held Analyzer Type 2270-W for Vibration Measurements
  • ½-inch free-field microphone Type 4189 with preamplifier ZC 0032
  • Impact Hammer – Type 8204
  • Triaxial Accelerometer Type 4529-B
  • Piezoelectric Accelerometer Type 4507-B

img41

Measurement equipment provided by the SENVIBE project

Equipment for video-conferencing

Equipment for video-conferencing consists of:

  • Device for live transmission of HDMI signals from a DSLR digital camera to a computer Elgato Cam Link 4K
  • Digital wireless microphone set consisting of:
    • Transmitter ME2-II clip-on lavalier mic XSW-D 3.5mm (1/8"")
    • XSW-D XLR male receiver
    • Belt clip
    • USB-A to USB-C charging cable
    • HDMI A - HDMI C (mini) cable 2m
  • Canon EOS 200D digital camera with 18-55mm lens and accessories:
    • Lens Canon EF-S 10-18mm f/4.5-5.6 IS STM
    • Memory card 128GB Kingston Canvas Focus CFF/128GB, VPG-65
    • Photo/video tripod Manfrotto Compact MKCOMPACTADV-BK
    • Photo/video mini-tripod MTPIXIEVO-BK
    • Adapter Canon AC-E6N AC

img42

Video-conferencing equipment provided by the SENVIBE projectE

LITERATURE

The acquired literature contains the most reputable titles in the field of noise and vibrations in English:

  • Fahy F.J. and Thompson D.J. (Eds), Fundamentals of Sound and Vibratio
  • Shin K. and Hammond J.K., Fundamentals of Signal Processing for Sound and Vibration Engineers
  • Petyt M., Introduction to finite element vibration analysis
  • Brandt A., Noise and Vibration Analysis: Signal Analysis and Experimental Procedures
  • Bies D.A., Hansen C.H., Howard C.Q., Engineering Noise Control
  • Foreman J.E.K, Sound Analysis and Noise Control
  • Norton M. and Karczub D., Fundamentals of Noise and Vibration Engineering
  • Gan W.S., New Acoustics Based on Metamaterials
  • Vorländer, M., Auralization
  • Guenneau S., Craster R.V., Acoustic Metamaterials: Negative Refraction, Imaging, Lensing and Cloaking

 

img43

Literature provided by the SENVIBE project

Print

FMGKV

Faculty of Mechanical and Civil Engineering in Kraljevo

Dositejeva 19
36000 Kraljevo
Republic of Serbia

+381 (0)36 383 269

Follow us