| EN 12354-2, Building acoustics – Estimation of acoustic performance of buildings from the performance of elements – Part 2: Impact sound insulation between rooms (2000); | |
| ISO 9052-1, Acoustics - Determination of dynamic stiffness – Part 1: Materials used under floating floors in dwellings (1989); | |
| Crispin C., Mertens C., Evolution of the dynamic stiffness of typical materials used under floating floor during their lifetime, Proceedings Internoise 2013, Austria. | |
| Schiavi A., Pavoni Belli A., Corallo M. Russo F. Acoustical performance characterization of resilient materials used under floating floors in dwellings, Acta Acustica united with Acustica Vol 93, n° 3 pp 477-485, May/June 2007. | |
| Dikavicius V. Miskinis K., Change of dynamic stiffness of open and closed cell resilient materials after compressibility test. Materials Science. Vol. 15, n°4. 2009. | |
| Schiavi, A., Guglielmone C., Miglietta P., Alasia F. Influence of static-load on airflow resistivity determination, Proceedings Acoustics 2008, Paris. | |
| Schiavi, A., Guglielmone C., Miglietta P., Effect and Importance of static-load on airflow resistivity determination and its consequences on dynamic stiffness, Applied Acoustics 72 (2011) 705-710. CrossRef | |
| ISO 9053, Acoustics - materials for acoustical applications - determination of airflow resistance (1991). |
Measurement of the Dynamic Stiffness of Porous Materials Taking into Account their Airflow Resistivity
Charlotte CrispinRelated information
1Belgian Building Research Institute (BBRI) - Acoustics Division Lombardstraat 42 B-100 Brussel, Belgium charlotte.crispin@bbri.be
, Christian MertensRelated information2Belgian Building Research Institute (BBRI) - Acoustics Division Lombardstraat 42 B-100 Brussel, Belgium christian.mertens@bbri.be
, Juraj MedvedRelated information3STU Bratislava, Faculty of Civil Engineering, Department of Building Structures, Radlinského 11, 813 68 Bratislava 1, Slovakia juraj.medved@stuba.sk