DuroPax Hospital Grade Long Term Disinfectant
DuroPax is a highly effective and versatile formulation that formulated especially for use in health care areas like clinics, hospitals etc. It is a 2 in 1 product that can be used to clean your surfaces as well as to provide anti-microbial protection up to 48hours post application. DuroPax has the unique ability to provide better and improved cleaning on surfaces along with anti-microbial protection for about 48 hours. DuroPax is free from toxic chemicals like chlorine, ammonia and formaldehyde. DuroPax is a water-based formulation with Quaternary Ammonium Compounds for protecting against microbes. DuroPax is biodegradable as it is formulated from plant based surfactants which does not possess any threat or harm to the environment as well as to the people. DuroPax is skin-friendly as the bio-static layer limits the presence of microbes without causing damage to the skin cells. The organic surfactant present in DuroPax ensures the complete removal of dirt from the surfaces.
Benefits
DuroPax helps to make your surfaces clean as well as provides protection. The areas in a hospital where the number of human traffic is more, DuroPax helps to provide a relaxed environment free from microbes by its bio-static layer coating.
Available Sizes: 100mL,750ml,5L
Application
DuroPax can be sprayed onto a cleaning wipe and the surfaces like tables, desks and door handles can be wiped off. The areas with a greater number of traffic can be wiped with DuroPax.
How Does DuroKleen Work?
DuroKleen works by forming a bond with the molecular structure of treated surfaces.
The bonding creates a dense field of microscopic, positively-charged chains of molecules that coat the traeted surface: our biostatic barrier.
Microbial cells are net-negatively charged. When they come into contact with the protected surface, the positive charge of the lipophilic tails of the molecular chains interact with negative charge of the microbial cells, fatally weakening their outer layer and effectively dismantling the microbe over time.