Jiangsu Mizlion Nano Technology Co., Ltd.Antistatic Masterbatch: A functional additive suitable for the dry scenarios in September!

In September, the climate is dry and the air humidity drops significantly. Various polymer materials (such as plastics and fibers) are prone to generating static electricity due to friction during processing and use. This not only affects production efficiency but may also cause dust adsorption, equipment failure, and even safety hazards. Antistatic masterbatch, as a functional additive specially designed for polymer materials, is made by melt extrusion granulation with resin as the carrier and compounded with antistatic agents, dispersants and other components. It can be evenly integrated into the interior of the substrate and dissipate static electricity by reducing the surface resistance of the material. It provides stable antistatic protection for material processing and product use in multiple fields in a dry environment in September At the same time, it does not damage the original properties of the substrate.

From the perspective of composition and process, the design of the antistatic masterbatch is in line with the usage characteristics of September. The carrier resin should be highly compatible with the base material (such as polyethylene, polypropylene, polyester) to prevent base material cracking and performance degradation caused by insufficient compatibility in the dry environment of September. Antistatic agents are classified into permanent and non-permanent types. Permanent antistatic agents can form a conductive layer through molecular chain migration, exerting their effects for a long time and are suitable for outdoor or long-term use products in September. Non-permanent antistatic agents form conductive films by absorbing trace amounts of moisture from the air. In the dry environment of September, they need to be combined with moderate humidity control to be suitable for short-term use scenarios. Dispersants can break the agglomerated particles of antistatic agents and ensure their uniform dispersion in the carrier. In production, by precisely controlling the extrusion temperature and screw shear force, masterbatches with uniform particles are produced, which are suitable for the efficient processing rhythms of polymer material injection molding, spinning, extrusion, etc., in September, reducing production interruptions caused by material compatibility issues.

In terms of core performance, the Antistatic Masterbatch is highly consistent with the demand in September. In September, the air is dry. Its excellent antistatic performance can reduce the surface resistance of the material to 10⁸-10¹¹Ω, effectively suppressing the generation of static electricity and preventing the adhesion of plastic films during winding and the breakage of fibers during spinning. Strong durability, the permanent antistatic masterbatch can continuously play a role throughout the service life of the product, resisting the accumulation of static electricity caused by repeated friction in September. It has excellent compatibility with the substrate and does not reduce the toughness, strength and transparency of the material after mixing. It is suitable for the packaging materials, electronic accessories, textile fabrics and other fields with high demand in September. Some products also have heat resistance and can withstand high temperatures of 150-300℃ during the processing of polymer materials, preventing the decomposition and failure of antistatic agents caused by temperature fluctuations in the workshop in September.

In terms of application scenarios,Antistatic Masterbatch is suitable for the demands of multiple fields in September. In the field of plastics, it can be integrated into packaging films and electronic tray raw materials to prevent the electrostatic adsorption of dust in the dry environment of September from affecting the cleanliness of the products. In the textile field, it is used for the spinning of chemical fibers to prevent fibers from entangling equipment due to static electricity and ensure the production efficiency during the textile peak season in September. In the field of electronics, it endows the casings of electronic components and the insulation layers of wires with antistatic properties to reduce the risk of static electricity breakdown of components in the dry environment of September. In the packaging field, it can also be used as packaging material for flammable items, reducing the safety hazards caused by static sparks and meeting the transportation safety requirements during the peak logistics season in September.

With the upgrading of anti-static demands in September, anti-static masterbatches are also continuously being optimized. Develop low-addition products to reduce usage costs, and upgrade environmentally friendly antistatic agents to reduce environmental burdens. At the same time, in accordance with the characteristics of different substrates in September, special formulas (such as those for polyester and polypropylene) are customized to further enhance the anti-static effect and material compatibility, providing a more reliable electrostatic protection solution for the processing and use of polymer materials during the seasonal transition period.

Jiangsu Mizlion Nano Technology Co., Ltd.is a technology-intensive nanomaterial manufacturer jointly founded by Shanghai Enxuan Yuan New Materials Technology Co., Ltd. and Yancheng Ruize Masterbatch Co., LTD., which holds a patent for wet grinding technology. The company focuses on the research and development and production of masterbatches for superfine fibers such as PET, PA, PP, PE, and PLA, and also provides technical solutions for functional fiber masterbatches.