Innovative Composite Materials for Sound Absorption and Insulation

Innovative Composite Materials for Sound Absorption and Insulation

Materials with sound-absorbing or sound-insulating properties have been rapidly evolving in recent years for several reasons. On one side, there is the ever-increasing awareness of the adverse effects that noise and lack of acoustic comfort may have on human health. On the other, the availability of...

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Martellotta, Francesco
Year of Publication:2021
Language:English
Physical Description:1 electronic resource (188 p.)
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spelling Martellotta, Francesco edt
Innovative Composite Materials for Sound Absorption and Insulation
Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021
1 electronic resource (188 p.)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
Materials with sound-absorbing or sound-insulating properties have been rapidly evolving in recent years for several reasons. On one side, there is the ever-increasing awareness of the adverse effects that noise and lack of acoustic comfort may have on human health. On the other, the availability of more sophisticated fabrication techniques, calculation methods, and new materials, has stimulated researchers and, more and more frequently, industry to develop customized materials with improved properties.This book collects contributions from different researchers covering several topics. A group of papers investigated the use of 3D printing to obtain perforated panels with extended frequency response, as well as to ideally design an optimized cell distribution to print (when fabrication techniques will make it possible) a porous material with a broader sound absorption. The role of the geometrical and microstructural properties of granular molecular sieves is investigated by another paper. A second group of papers focused its attention on the use of natural or recycled components to create a skeleton of porous materials with good sound-absorbing properties and low environmental impact. Cigarette butts, recycled textile waste, and almond skins have been investigated by different authors.Finally, the last batch of papers included a review of sound insulation properties of innovative concretes and two research papers focussing on a numerical and experimental analysis of wood plastic composite (WPC) panels and on the potential of semi-active solutions employing compressible constrained layer damping (CCLD).
English
Technology: general issues bicssc
perforated panel
absorber array
low frequency absorption
sound absorber
cigarette butts
sustainable material
recycling
variability analysis
textile waste
biopolymers
sound absorption
sustainable materials
circular economy
polyurethane foam
thermal property
phase change material
flame retardant
perforated plates with extended tubes
porous materials
periodic absorber
wood plastic composite
transmission loss
radiation efficiency
orthotropic panel
wavenumber analysis
molecular sieve pellets
impedance tube
sound transmission loss
semi-active damping
sandwich panel
morphing structure
compressible constrained layer damping
composite materials
anisotropic materials
optimized absorption
diffuse field
graded properties
agro-waste
hygrothermal performances
concrete
noise
acoustic properties
sound-absorbing
sound-reflecting
3-0365-2381-2
3-0365-2380-4
Martellotta, Francesco oth
language English
format eBook
author2 Martellotta, Francesco
author_facet Martellotta, Francesco
author2_variant f m fm
author2_role Sonstige
title Innovative Composite Materials for Sound Absorption and Insulation
spellingShingle Innovative Composite Materials for Sound Absorption and Insulation
title_full Innovative Composite Materials for Sound Absorption and Insulation
title_fullStr Innovative Composite Materials for Sound Absorption and Insulation
title_full_unstemmed Innovative Composite Materials for Sound Absorption and Insulation
title_auth Innovative Composite Materials for Sound Absorption and Insulation
title_new Innovative Composite Materials for Sound Absorption and Insulation
title_sort innovative composite materials for sound absorption and insulation
publisher MDPI - Multidisciplinary Digital Publishing Institute
publishDate 2021
physical 1 electronic resource (188 p.)
isbn 3-0365-2381-2
3-0365-2380-4
illustrated Not Illustrated
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carrierType_str_mv cr
is_hierarchy_title Innovative Composite Materials for Sound Absorption and Insulation
author2_original_writing_str_mv noLinkedField
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