Description
Acoustic Foam 6mm (Self-Adhesive, 100cm wide) is a flexible, flame-retardant, open-cell foam made from impregnated polyether. Despite its slim profile, this foam offers reliable sound absorption, reducing echoes, vibration, and airborne noise while improving speech clarity and sound quality. Its controlled cell structure ensures effective performance across a variety of acoustic treatment projects.
This 6mm foam is lightweight, robust, and versatile, with excellent mechanical strength. It can be applied to flat or curved surfaces and even compressed to fit complex shapes. The built-in self-adhesive backing allows for quick, secure installation without additional fixings, making it ideal for both professional and DIY applications.
Foam Specs
| Width | 100cm (1 metre) |
| Thickness | 6mm |
| Material | Impregnated polyether open-cell foam |
| Backing | Self-adhesive |
| Fire Rating | BS476 Parts 6 & 7, Class 0 & Class 1 |
| Properties | Lightweight, flame retardant, sound absorbing, flexible |
Common Applications
Acoustic Foam 6mm (Self-Adhesive) is perfect for:
- Improving acoustics in small studios and rehearsal spaces
- Reducing echo in offices, meeting rooms, and call centres
- DIY home soundproofing projects
- Lining machine enclosures to reduce vibration noise
- Applying to doors, walls, or ceilings where space is limited
Its slim profile makes it particularly suitable where subtle sound treatment is required without taking up much depth.
FAQs
What is the thickness of this foam?
This foam is 6mm thick — ideal for lightweight acoustic treatment in tighter spaces.
Is it fire safe?
Yes, it complies with BS476 Parts 6 & 7, Class 0 and Class 1 safety standards.
Does it come with adhesive?
Yes, this version includes a self-adhesive backing for quick and easy installation.
Where can I use it?
It can be applied to walls, doors, ceilings, floors, or curved surfaces to reduce echo and improve sound clarity.
How does it work?
The open-cell structure increases air resistance, absorbing sound waves and converting them into heat to reduce noise.
