Low MOQ for China SMS 100%PP Nonwoven Fabric for Isolation Gown/Anti-Bacterial Fabric Surgical Gown/Protective Clothing Fabric, 40/50GSM
With dependable high quality approach, great reputation and excellent customer support, the series of products and solutions produced by our firm are exported to lots of countries and regions for Low MOQ for China SMS 100%PP Nonwoven Fabric for Isolation Gown/Anti-Bacterial Fabric Surgical Gown/Protective Clothing Fabric, 40/50GSM, We’re keeping durable business associations with much more than 200 wholesalers during the USA, the UK, Germany and Canada. Should you be interested in almost any of our items, you should truly feel no cost to get in touch with us.
With dependable high quality approach, great reputation and excellent customer support, the series of products and solutions produced by our firm are exported to lots of countries and regions for China 3 Layers and 35GSM/45GSM price, Faced with the vitality of the global wave of economic integration, we’ve been confident with our high-quality items and sincerely service to all our customers and wish we can cooperate with you to create a brilliant future.
Antibacterial principle
First, the direct interaction between the copper surface and the bacterial outer membrane ruptures the bacterial outer membrane; then the copper surface acts on the holes in the bacterial outer membrane, causing the cells to lose necessary nutrients and water until they shrink.
The outer membrane of all cells, including single-celled organisms like bacteria, has a stable microcurrent, usually called “membrane potential.” To be precise, it is the voltage difference between the inside and outside of the cell. It is likely that a short circuit occurs in the cell membrane when the bacteria and the copper surface come into contact, which weakens the cell membrane and creates holes.
Another way to create holes in bacterial cell membranes is local oxidation and rust, which occurs when single copper molecules or copper ions are released from the copper surface and hit the cell membrane (protein or fatty acid). If it is an aerobic impact, we call it “oxidative damage” or “rust”.
Since the main protection of the cell (the outer membrane) has been breached, the flow of copper ions can enter the cell unimpeded. Some important processes inside the cell are destroyed. Copper really controls the inside of cells and hinders cell metabolism (such as biochemical reactions necessary for life). The metabolic reaction is driven by enzymes, and when excess copper is combined with this enzyme, they will lose their activity. The bacteria will not be able to breathe, eat, digest and produce energy.
Therefore, copper can kill 99% of bacteria on its surface, including Staphylococcus aureus, Escherichia coli, etc., and has a good antibacterial effect.
Recently, the market for antibacterial and antiviral masks is booming, which is a good opportunity to increase the added value of enterprise products!