Masterbatch

They are concentrated products compatible with processes and polymers that increase the performance of plastic materials in the production phase and end use according to the requirements and provide features to the product according to the purpose of use.

They are products that provide anti-block, anti-static, anti-oxidant, slip, UV (ultraviolet), flame retardant, cell forming, optical whitening, mechanical strength, polymer protection in production, extra brightness, high transparency, process facilitating and production performance enhancing features for different polymer applications.

Masterbatch to prevent surface slipperiness.

Masterbatch that reduces surface friction, prevents adhesion and sticking, and provides fluidity.

Masterbatch that provides extrusion/injection cleaning during process product transitions.

Conductive masterbatch that gives electrical conductivity to plastic.

Anti-corrosive masterbatch developed for metal product packaging that protects products from corrosion.

Dry masterbatch that can be used without drying and prevents oxidation and moisture.

Flame retardant masterbatch that delays the flame spread of plastic and prevents the release of toxic substances into the environment.

Masterbatch that prevents droplet formation (fog) caused by temperature changes.

Fragrance masterbatch that allows plastic to emit a pleasant odor.

Masterbatch that increases the impact resistance of the final product and provides strength to the product.

Masterbatch that prevents the passage of harmful rays (IR).

Masterbatch developed for plastics to be laser marked, improving laser printing quality.

Masterbatch that gives opacity to plastic.

Masterbatch used to prevent the proliferation of microbiological elements that may form on plastic due to the conditions and environment of use.

Nucleating masterbatch that ensures the crystallization of plastic and increases its optical properties.

Masterbatch that masks and prevents the negative odor of the plastic used from passing into the final product.

Masterbatch used to increase the surface whiteness and brightness of the final product.

Masterbatch that prevents and delays the deterioration of the structure of the plastic due to the effects it encounters during the process or the environmental conditions in which it is located as the final product after production.

Oxygen absorber masterbatch developed for the plastic packaging of oxygen-sensitive products in order to increase their shelf life.

Masterbatch developed for final products that exhibit luminescence in the dark and impart phosphorescence properties to the product.

Masterbatch that provides various facilitating additives to the process.

Masterbatch that reduces the friction resistance of final products, provides lubrication to the product, and prevents adhesion.

Masterbatch used to prevent dust retention and adhesion caused by static electricity during or after the process stage.

Masterbatch used to prevent color changes in final products due to heat.

Masterbatch used to prevent and delay the negative effects of sunlight or lighting systems on the color and mechanical properties of plastic.

Masterbatch used to prevent and minimize deformations that may occur in plastic products.

These are products with high Titanium Dioxide (TiO2) ratio, high opacity and brightness, technical and physical properties that will provide high dispersion, and high heat resistance, compatible with PE (Polyethylene), PP (Polypropylene) applications, and different engineering polymers such as ABS (Acrylonitrile Butadiene Styrene), PC (Polycarbonate), SAN (Styrene Acrylonitrile), HIPS (High Impact Polystyrene), Nylon.

They are products with high carbon content, matte or glossy effect, high covering and dispersion properties, and compatible with PP, PE Styrene, PET (Polyethylene Terephthalate), PVC-R (Polyvinyl Chloride-R) polymers. In addition to being matte and glossy, they can also be produced in opaque and transparent features.