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LEATHER PLASMA NANO COATING MARKET
INTRODUCTION
The idea offers a technique for treating fabrics with nano plasma to make them waterproof. The low-pressure plasma nano coating equipment and the low-pressure plasma polymerization or atomic layer deposition method are used to apply the waterproof treatment to the textiles in the nano plasma method for waterproofing.
The following steps are included in the procedure of treating textiles with nano plasma to make them waterproof: Placing the textiles in the bin body of a low-pressure plasma processing device, pumping vacuum until a waterproof agent is uniformly attached to the textiles’ surfaces under the influence of the plasma, and simultaneously pumping helium into the bin body of the processing device, where the waterproof agent flow is controlled.
A monomer of perfluorooctyl bromide serves as the waterproofing agent. The fabrics’ essential qualities must remain unaltered for the nano plasma waterproof treatment method to give the textiles three-dimensional waterproof and oil-repellent functionalities; the fabrication of the textiles is straightforward and pollution-free.
LEATHER PLASMA NANO COATING MARKET SIZE AND FORECAST
The Global Leather Plasma Nano coating market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
LEATHER PLASMA NANO COATING MARKET RECENT DEVELOPMENT
Complete organic contamination elimination is provided by the PS 350 Production Plasma System without the use of wet chemicals. The PS 350 is developed with durability, performance, and efficiency in mind and uses only the highest quality components to withstand the rigors of daily production use.
Plasma processing has long been the company’s main line of business. Small amounts of harmless gases are converted into highly reactive and aggressive plasma through the energetic process known as cold gas plasma.
The molecular structure of solid surfaces that have been placed in the same environment as the gas plasma is altered in order to provide the required surface qualities.
Plasma processing is safe for the workplace and good to the environment because it operates without the use of dangerous chemicals.
This research aims to create hydrophobic coatings on leather materials utilizing a low-pressure plasma system to plasma polymerize an organosilicon molecule, such as hexamethyl Di siloxane (HMDSO), as a chemical precursor.
Different experimental methods including Fourier transform infrared spectroscopy (FTIR), X-ray photoelectron spectroscopy (XPS), scanning electron microscopy (SEM), and standard tests including color measurements of the samples, surface coating thickness, and water contact angle (WCA) measurements were used to assess the hydrophobic coatings produced by this plasma process. The results showed that the monomer had properly and fully polymerized on the leather surface, forming an incredibly thin layer made of poly siloxane.
LEATHER PLASMA NANO COATING MARKET COMPANY PROFILE
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