1. Application of Cellulose and Paper-Based Products in Building Acoustics.
- Author
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KLIMEK, Aleksandra, ŁĄTKA, Jerzy F., NIERADKA, Paweł, and DOBRUCKI, Andrzej
- Subjects
PHYSICAL laws ,CONSTRUCTION materials ,ARCHITECTURAL acoustics ,GREENHOUSE gases ,POROUS materials ,SOUNDPROOFING ,THERMAL insulation - Abstract
This article explores the use of cellulose and paper-based products in building acoustics. It examines various materials such as cellulose wool, paperboard, corrugated cardboard, and honeycomb panels, and evaluates their acoustic absorption and insulation properties. The results indicate that these paper-based products can be effective alternatives to traditional materials in terms of both absorption and insulation performance. The article emphasizes the potential of paper-based materials in reducing the environmental impact of the building industry. The text also discusses the resonance frequencies and properties of Helmholtz resonators and double walls with the insertion of Helmholtz resonators, providing equations and formulas to calculate their resonance frequencies and transmission loss. It describes the measurement methods used to assess the sound absorption and sound reduction properties of various materials, including cellulose and paper-based products, and presents the results obtained from these measurements. The document also discusses the dynamic properties of paperboard and the testing methods used to measure these properties, as well as the results of tests conducted on cellulose wool. It highlights the environmental benefits of using recycled materials like cellulose wool. The text provides data and analysis on the acoustic properties of various cellulose and paper-based materials used in building construction, including cellulose wool, paperboard, corrugated cardboard, and honeycomb panels. The measurements include parameters such as sound reduction index, sound absorption coefficient, and dynamic Young's modulus. The results demonstrate that these materials have different acoustic characteristics and can be utilized for sound insulation and absorption in [Extracted from the article]
- Published
- 2024
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