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Synthetic polymer wax, also known as polymeric wax, is a wax-like substance created from synthetic polymers rather than natural sources such as beeswax or carnauba wax. These waxes are intended to imitate the qualities of traditional waxes while providing special benefits in a variety of applications.
They’re frequently utilized as additives in coatings, paints, inks, adhesives, and other items to provide functions including better surface characteristics, lubrication, and protection. Synthetic polymer waxes are frequently used as additives in coatings, paints, and finishes to improve surface characteristics. They can improve the gloss, smoothness, and color depth of many substrates. They are used to inhibit ink transfer from one surface to another in applications such as printing inks.
Powders, dispersions, emulsions, and solid forms of synthetic polymer waxes are available. Depending on the desired effect, they can be included into formulations at various stages of manufacture. The type of synthetic polymer wax used is determined by the application and the performance qualities required.
Compatibility with the underlying material, desired functional qualities, and any regulatory issues linked to the use of synthetic polymers in the intended application are all essential considerations. Synthetic polymer waxes can aid in the production of films in coatings, allowing the material to distribute evenly and adhere to the surface. They are employed as release agents in molding and casting operations to prevent mold and end product adhesion.
The Global synthetic polymer wax 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.
TOYOCHEM Co., Ltd. handles high-functional, high-value-added synthetic waxes as a domestic distributor of NuCera Solutions’ synthetic waxes. Extremely high melting point and rapid recrystallization. POLYWAX Series is a low molecular weight polyethylene wax produced by linear polymerization of ethylene. Even at high temperatures, the hardness is extremely high.
It is insoluble in solvents due to its narrow molecular weight distribution and absence of branching structure. It offers exceptional thermal stability and chemical resistance due to its perfectly saturated structure. It is of low viscosity. Polyolefin lubricants and flow improvers. Powder coating leveling and lubricant.
