Building Acoustics And Vibration: Theory And PracticeWorld Scientific Publishing Company, 24 Jun 2009 - 972 halaman As a comprehensive reference dedicated to sound and vibration in buildings, Building Acoustics and Vibration addresses the basic and advanced principles that can be used to solve practical and theoretical problems typically encountered in building and architectural acoustic practices. In addition, physical and mathematical concepts are introduced and developed sufficiently to make this publication a self-contained and up-to-date source of information for readers.Building Acoustics and Vibration is a must-have textbook for engineering students, engineers, and consultants involved in the sound, vibrations and building environment. With comprehensibility and versatility in the presentation of knowledge, this highly anticipated publication will easily fill the gap in the literature of building engineering and sciences, which presently lacks an authoritative guide on the theoretical and practical aspects of building acoustics and vibration. |
Isi
| 1 | |
Chapter 2 Fundamental Building Acoustics | 137 |
Chapter 3 Single Number Ratings and Test Methods | 278 |
Chapter 4 Airborne Sound Insulation | 349 |
Chapter 5 Impact Sound Isolation and Insulation of Floors | 474 |
Chapter 6 Flanking Sound Transmission | 531 |
Chapter 7 Sound Insulation of Doors and Windows | 581 |
Chapter 8 Outdoor Sound Propagation | 620 |
Chapter 9 Room Acoustics | 666 |
Chapter 10 Air Distribution System Noise | 741 |
Chapter 11 Vibrations in Buildings | 808 |
Appendix 1 Summary of Building Acoustic Measurements | 888 |
ISO and ASTM Ratings | 895 |
Appendix 3 Sound Reduction Indices Transmission losses of Some Common Constructions | 920 |
Bibliography | 927 |
Istilah dan frasa umum
A-weighted absorbing absorption coefficient amplitude approximately barrier beam bending waves building acoustics calculated cavity ceiling concrete construction critical frequency curve damping dB(A density distance door double wall duct effect enclosure example excitation flanking transmission floating floor Frequency Hz frequency range glass gypsum board high frequencies impact sound level incidence increases isolation joists kg/m² kg/m³ layer lightweight longitudinal waves loss factor low frequencies mass material measured mineral wool modes natural frequency noise level noise source obtained octave band panel partition path plasterboard plate propagation radiation efficiency receiving room resilient resonant frequency reverberation shown in Fig slab sound absorption sound attenuation sound field sound insulation sound power level sound pressure level sound reduction index sound source sound wave space standing waves stiffness structure studs surface Table thick transmission coefficient transmission loss transmitted typical velocity vibration wavelength window