- Why Dycem
- Access Tiles
- Wall Panel
- Bench Mat
- NEW CleanZone Lite
- NEW Grip Technology
- Push Pad for Health Care
- Push Pads for Industry
- Industry case studies
- Medical Devices
- Scientific Study
- El español de América
- Contact Us
- Become a Partner
- Search our site
IN ITS TRACKS
Dycem's CleanZone Technology combines a unique polymeric compound with advanced processing technology. This combination creates Dycem's 5 S's - Size, Suppleness, Silver, Smoothness and Service, which deliver the most effective contamination control solution on the market.
Are you currently using peel off mats?
Peel off mats can seem like an ideal short term solution for your facility. But in truth, they can cause more harm than good.
It is well accepted that to effectively remove contamination from feet and wheels, it takes a total of six footfalls or three full wheel rotations. Only Dycem delivers this.
Dycem's unique polymeric surface is soft and supple, conforming to shoe and wheel profiles and collecting particles between 0.1 and >100 microns.
Dycem's exceptionally smooth surface creates a natural tack and a high degree of short-range electromagnetic forces (Van der Waals). This enables it to attract, collect and retain up to 99.9% of particles.
Silver ion-based antimicrobial products from BioMaster are being used in Dycem's products and have been proven to be effective on more than 50 different organisms including MRSA.
Dycem offer complete customer support and help you to define your contamination control needs with a free on-site survey.
Dycem contamination control flooring solutions are manufactured with Biomaster (A silver antimicrobial) as an integral ingredient, providing effective and lasting antimicrobial protection.
Mauris eu tincidunt erat. Sed quis fermentum mauris. Maecenas in vulputate ante. Etiam id tempor sapien. Phasellus sapien eros, tempor quis varius quis,
How Dycem Works
.Juliette and Oliver are at the cleanroom expert day in Leipzig, excited to learn more about the latest news in Cle… t.co/bX30Zqah4c