Launch Offer - 15 to 30% Discount till 30/11/18

AN INNOVATIVE WAY TO CLEAN AIR.

THIS IS HOW IT WORKS.


The key to efficient protection for an air mask is mainly the filter capability. The MyssTre mask and cotton scarf is therefore built around 3 foundations - protection, comfort, and design. Here we explain how our mask works and what makes it unique.

Health Befits

PROTECTION THROUGH THE FILTER

The key to protection is in the mask’s filter. When you breathe with the mask on, air passes through five/three important layers of protection before it reaches your lungs. Each layer has a different density in order to filter particles of different sizes. The multi-layer filter technology is tested at Ahmedabad Textile Industry’s Research Association and NELSON Laboratories, one of the world’s most advanced filter laboratories, and consists of the following layers:

  • Outside cotton Layer - Outside wrapping in a durable finish.
  • Outside PP Layer - Filters gases and reduces odor.
  • The NanoFiber Layer - Filters larger PM10, pollen, allergens, smaller PM2.5, dust and bacteria.
  • Inside PP Layer - Filters to purity.
  • Inside cotton LayerInside filter with ultra-smooth and skin-friendly finish.
  • The filter is replaceable

What is a Nanofiber?

A nanofiber is a continuous fiber which has a diameter in the range of billionths of a meter.

The smallest nanofibers made today are between 1.5 and 1.75 nanometers.At the right a human hair (80,000 nanometers) is place on a mat of nanofibers.

Nanofibers are a continuous filament much like a fishing line. The material produced from nanofibers forms mats of non-woven material on the collection plates or devices. Threads from garments are different in that they have been twisted into yarns and then woven into fabrics. Nanofibers are easily made from man-made polymers such as nylon and natural polymers such as proteins.


SEE PRODUCTS
Third slide
Third slide

Unique Properties of Nanofibers.

Scientist study both the chemical and physical properties of nanofibers. Because these fibers are so small, they are much more influenced by intra and intermolecular forces (things like electrical charge and magnetic fields). The huge surface area available on a nanofiber makes it very suitable for our new technologies which require smaller and smaller environments for chemical reactions to occur. Increasing the surface area speeds up a chemical reaction. Students may ask questions about how we see, and work in such a small environment. Much work is done using high speed cameras with enhanced light and magnification. Scientists also use SEM (scanning electron microscope) and TEM (transmission electron microscopes) to see surfaces of nanofibers and structure.

  • Size: nanofibers are very small which gives them unique physical and chemical properties and allows them to be used in very small places.
  • Surface-to-volume ratio: nanofibers have a huge surface area compared to their volume. So scientists have lots of surface to work with!

The huge surface area available on a nanofiber makes it very suitable for new technologies which require smaller and smaller environments for chemical reactions to occur. Increasing the surface area speeds up a chemical reaction.

JOIN US Get the latest news, invites and offers straight to your mail.
FOLLOW US ON