In response to the increasing demand for high-quality acoustic environments for music recording and production, a local Australian Rock Band undertook the creation of a Durra Panel Series 3 Acoustic Studio. Housed within a spacious warehouse in Coburg, this innovative studio was designed to assist with the recording of the band’s upcoming album while delivering exceptional sound quality and acoustic performance. Leveraging the unique properties of Durra Panel, renowned for its proficiency in dampening low-frequency sounds associated with aircraft, heavy industry, and performing spaces, the studio’s construction aimed to provide unparalleled sound control and versatility.
Durra Panel’s Acoustic Superiority: Durra Panel, a superior acoustic material, is recognised for its remarkable ability to effectively mitigate low-frequency sound propagation. Ideal for environments prone to disruptive noise from aircraft, heavy industries, and other sources, the panel’s application in this project ensures an optimal recording space that remains free from external disturbances. Moreover, Durra Panel’s adaptability in terms of finishes allows for tailoring the acoustic environment to specific needs, addressing both sound absorption and sound transmission loss requirements.
Modular Design and Easy Installation: The Durra Panel Series 3 Acoustic Studio was constructed by the Australian Band members, showcasing their commitment to crafting a studio environment that meets their exacting standards. The studio’s modular design not only guarantees ease of installation and disassembly but also presents a versatile solution for future adaptations. This unique design approach further enables the band to efficiently create an acoustic oasis that serves as an ideal recording habitat.
Exceptional Sound Absorption: In recognising the importance of sound absorption, the Durra Panel Series 3 Acoustic Studio was strategically designed to harness Durra Panel’s innate qualities. The studio’s interior configuration is curated to promote sound diffusion and absorption, minimising unwanted reflections and resonances.
Subscribe to our newsletter to stay up to
date on the latest news and innovations.
