ACROVYN’S RESISTANCE TO BACTERIA AND FUNGI
STOPPING THE SPREAD OF BACTERIA
Bacteria can live on surfaces for significant periods of time, making it easy for them to enter new hosts. Some surfaces are more resistant to microorganisms than others, meaning that architects and interior designers should give careful consideration to product selections for public interiors, especially in light of the global Coronavirus Pandemic. Acrovyn is a surface material that’s been utilized by the healthcare industry for decades due to its bacterial resistance properties, and could play an increasingly important role in the industry moving forward.
DESIGN STAGE CONSIDERATIONS
Some surfaces are more resistant to microorganisms than others. This is where Architects, Interior Designers and commercial fit-out professionals can play an important role in the fight against the spread of bacteria.
TOUCHPOINTS
Most public interiors contain the following elements, all of which we touch and interact with on a daily basis:
- Doors and door handles
- Handrails and support bars,
- Flat surfaces like walls and desks
Shops, schools, universities, museums, cinemas, galleries etc., all contain these fixtures, and we don’t think twice about touching them or brushing up against them.
Maintaining strict hygiene levels in public environments and ensuring the surfaces we touch and interact with are easy to clean has never been more important task.
INTRODUCING CS ACROVYN
Acrovyn doesn’t harbour bacteria or fungi, and independent lab tests provide clear evidence of this. Acrovyn is available in several ranges with a whole array of colours and finishes to choose from, making it ideal for a broad range of commercial settings (not just healthcare and aged care). Acrovyn works just as effectively in retail, hospitality, sport & leisure, transportation and education sectors along with many other industries that serve public needs.
Acrovyn Hydroclad takes the hygiene factor to another level with its smooth surface and antibacterial additive throughout the sheet composition.
TESTING
Resistance to Bacteria
Acrovyn samples were placed on a Nutrient Agar and inoculated with a suspension containing Pseudomonas Aeruginosa (ATCC No 13388). Test specimens were incubated at 37°C and not less than 85% relative humidity for a period of 21 days.
RESULTS: The Acrovyn samples were observed under 40x magnification for their ability to support bacterial growth. The rating for this method is growth or no growth. The Acrovyn samples returned a result of no growth.
Resistance to Fungi
Acrovyn samples were placed on a Nutrient Agar and inoculated with a spore suspension containing Aspergillus niger (ATCC No. 9642), Penicillium pinophilum (ATCC No. 11797), Chaetomium globsum (ATCC No. 9642), Giliocladium virens (ATCC No 9645) and Aureobasidium pullulans (ATCC No 15233). Test specimens were incubated at 37°C and not less than 85% relative humidity for a period of 28 days.
RESULTS: The Acrovyn samples were observed under 40x magnification for their ability to support fungal growth. The rating for this method is growth or no growth. The Acrovyn samples returned a result of no growth.
DETAILED RESULTS OF FUNGAL RESISTANCE TESTING:
| Fungus Type | Test Specimen | Rating | Observations |
|---|---|---|---|
| Aspergillus Niger | Control | 4 | Visible growth over surrounding area |
| Acrovyn | 0 | Did not support fungi growth | |
| Penicllium Pinophilum | Control | 4 | Visible growth over surrounding area |
| Acrovyn | 0 | Did not support fungi growth | |
| Chactomium Globosum | Control | 4 | Visible growth over surrounding area |
| Acrovyn | 0 | Did not support fungi growth | |
| Gliocladium Virens | Control | 4 | Visible growth over surrounding area |
| Acrovyn | 0 | Did not support fungi growth | |
| Aureobasidium Pullulans | Control | 4 | Visible growth over surrounding area |
| Acrovyn | 0 | Did not support fungi growth |
ACROVYN PRODUCTS
