Hexagon Acoustic Panel - Red - 6 Pack
Positive
Price Comparison
Save up to ZAR 480.00The Story
Transform your space with these vibrant red hexagon acoustic panels, designed to effectively reduce noise, echo, and unwanted reflections. Made from high-density, eco-friendly polyester fiber, they offer superior sound insulation compared to standard foam while adding a decorative touch to home offices, studios, or commercial environments.
add_circle The Upside
- check Significantly improves audio/video quality by reducing background noise and echo
- check Versatile for various applications including home offices, recording studios, and meetings
- check Decorative and available in multiple colors to complement interior design
remove_circle The Downside
- close No adhesive included, requiring purchase of glue gun or double-sided tape
- close May not provide complete soundproofing for very loud environments
- close Limited thickness (1.93cm) may be less effective for low-frequency sounds
Specifications & features
Key features
- check_circle Hexagon-shaped design for aesthetic appeal and effective sound diffusion
- check_circle High-density polyester fiber construction for enhanced noise reduction
- check_circle Eco-friendly, non-toxic, and flame-retardant materials
- check_circle Lightweight and easy to install with adhesive methods (no drilling required)
- check_circle 6-pack configuration for flexible coverage and arrangement
Specifications
Material
Polyester fiber
Weight per panel
100g
Density
150kg/m³
Dimensions per panel (LxWxH)
36cm x 30cm x 1.93cm
Tags
Acoustic
acoustic foam panels
boardrooms
Commercial Office
enhanced sound insulation
Hexagon Acoustic
Hexagon Acoustic Panel
hexagon-shaped polyester-fiber
ideal for reducing
noise
noise and echo
Pack
Pack The red
polyester-fiber panels
provide enhanced sound
Red
red hexagon-shaped
reducing background noise
remote workers
podcasters
musicians
streamers
office managers
home theater enthusiasts
home office setup
recording studio sound treatment
video conference improvement
noise reduction in shared spaces
