Installation and Application Broadcast Edit The installation of glass fiber acoustic ceilings is mainly divided into exposed grid suspension systems and concealed (hidden grid) suspension systems, which are simple and quick to install. Due to their excellent sound absorption, fire resistance, and moisture resistance, they are widely used in various buildings that require high acoustic performance.
Installation Systems and Steps The installation systems are mainly divided into exposed grid suspension systems and concealed (concealed) grid suspension systems. The exposed grid system is easy to install and convenient for pipeline maintenance; the concealed system hides the grid, providing a more uniform appearance. The supporting grids include wide-edge/narrow-edge T-shaped painted grids, L-shaped edge grids, etc., compatible with different edge types (such as square edges or recessed edges) of panels. The standard installation steps generally include: cleaning the base layer, chalking lines, installing hangers, installing main grids, installing secondary grids, installing edge grids, inspecting hidden works, installing glass fiber acoustic panels, and construction acceptance. The spacing of suspension hangers is usually 900~1200mm, with main grids such as C38 grids and secondary grids as painted T-shaped grids. During installation, the panel surface should be protected to avoid contamination.
Main Application Places Glass fiber acoustic ceilings are widely used in indoor spaces that need to improve sound quality, reduce noise, and have fire protection and decorative requirements. Main application places include: theaters, concert halls, recording studios, and broadcasting studios for professional acoustic purposes; conference rooms, auditoriums, offices, and classrooms in public and educational buildings; hotels, shopping malls, exhibition halls, and other commercial spaces; hospitals, laboratories, operating rooms, and other high-cleanliness places; airports, stations, stadiums, and other large public buildings; as well as high-noise environments such as textile factories and industrial plants. Their function is to effectively control and adjust indoor reverberation time, reduce environmental noise, and meet building decoration and fire protection standards (usually Class A non-combustible requirements).
