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http://hdl.handle.net/11452/29274
Başlık: | Sound absorption analysis of thermally bonded high-loft nonwovens |
Yazarlar: | Pourdeyhimi, Behnam Uludağ Üniversitesi/Mühendislik Fakültesi/Tekstil Mühendisliği Bölümü. 0000-0001-5708-7993 Süvari, Fatih Ulcay, Yusuf N-1770-2019 55512827100 6601918936 |
Anahtar kelimeler: | Materials science Sound Absorption Nonwoven Acoustic High-loft Air velocity Parameters Fabrics Acoustic impedance Acoustic waves Acoustics Air Buildings Nonwoven fabrics Polyesters Polypropylenes Sound insulating materials Velocity Air velocities High lofts Maximum velocity Minimum thickness Non-woven Sound absorption characteristic Sound absorption coefficients Specially designed mold Acoustic wave absorption |
Yayın Tarihi: | May-2016 |
Yayıncı: | Sage Publications |
Atıf: | Süvari, F. vd. (2016). "Sound absorption analysis of thermally bonded high-loft nonwovens". Textile Research Journal, 86(8), 837-847. |
Özet: | Sound absorption characteristics of specially designed high-loft nonwovens with minimum thickness were reported in this study. Three different polypropylene and polyester fiber-based high-loft, air-laid, and thermally bonded nonwovens varying in basis weight were produced. Heavier high-loft nonwoven samples at various thicknesses were formed using a specially designed mold. The sound absorption coefficients of samples with mass per unit areas ranging from 350 to 1575 g/m(2) and with thicknesses ranging from 5 to 45 mm were measured. Acoustical absorptive behavior of the high-loft nonwovens was explained by analyzing the displacements of small air control volumes in a high-loft nonwoven and the air velocities in the impedance tube. Results indicate that the velocity and the total displacement of the small air volumes inside the fiber network have a major effect on sound absorption. High-loft nonwovens can be much more effective in terms of sound absorption if they are produced at the thickness at which average maximum velocity of the air is calculated highest. If there is a desire to absorb more acoustic energy, heavier nonwovens can be produced. It is suggested that relatively heavy nonwovens (from 700 to 1575g/m(2)) can be produced thinner (5-10 mm) than the calculated thickness value based on the average maximum air velocity to get maximum sound absorption at lower thickness. |
URI: | https://doi.org/10.1177/0040517515590412 https://journals.sagepub.com/doi/10.1177/0040517515590412 http://hdl.handle.net/11452/29274 |
ISSN: | 0040-5175 |
Koleksiyonlarda Görünür: | Scopus Web of Science |
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