Polyamides are one of the most widely used engineering plastics due to their basic properties. Polyamide 6 allows us to create rational solutions in injection and extrusion applications due to its versatility. Polyamide 6 products are used in many sectors due to their properties.
Polyamides, due to their basic properties, are one of the most widely used engineering plastics. Due to its versatility, polyamide 6.6 allows us to create rational solutions in injection and extrusion applications. Polyamide 6.6 offers unique opportunities for metal replacement applications due to its superior impact resistance, excellent balance of strength, ductility and high heat resistance. Polyamide 6.6 products are used in many sectors due to their properties.
Polypropylene offers excellent chemical resistance, good mechanical properties and ease of processing, as well as cost advantages that many thermoplastics cannot reach. Polypropylene allows us to create rational solutions in injection and extrusion applications with its Homopolymer, Copolymer and Random Copolymer diversity. When producing polypropylene homopolymer glass fiber reinforced, when a chemical coupling agent is used, it increases the tensile and bending strengths compared to normal glass fiber reinforced polypropylene. improves significantly.Polypropylene Copolymer provides the advantage of high impact resistance at low temperatures.Polypropylene Random Copolymer, with its glass fiber reinforced form, provides high dimensional stability in extrusion applications of three-layer composite pipes.
Polycarbonate is an amorphous polymer. It has excellent impact strength at low temperatures, high heat resistance and good dimensional stability. Stable against water, mineral and organic acids. Although it is partially soluble in aromatic hydrocarbons. It has good electrical properties. Due to its versatility, polycarbonate allows us to create rational solutions in injection and extrusion applications.
Acrylonitrile butadiene styrene consists of three separate monomers coming together in perfect balance. Essentially, styrene contributes to ease of processing. Acrylonitrile chemical resistance and increased. It provides surface hardness, while butadiene contributes to impact resistance. It is considered the polymer with the best properties of the styrene family. It offers practical solutions in injection and extrusion applications with its acrylonitrilebutadienstyrene, flame retardant, glass fiber reinforced structures. Acrylonitrilebutadienestyrene is used extensively in the electrical & electronics, white goods, automotive, small household appliances, furniture accessories and pool equipment sectors.
Polyethylene terephthalate (PET) is a thermoplastic polyester engineering resin. When used as an injection molding compound, it can be combined with glass fibers or minerals. with PET reinforcements. When combined, its strength, hardness and heat resistance properties increase significantly. PET resins are also known for their excellent melt flow properties and high productivity from multi-cavity molds. also attracts attention. Polyethylene terephthalate is most commonly used in the food industry, packaging, carbonated and low-alcoholic beverages, energy industry, chemical, medical and pharmaceutical sectors for many reasons. It is one of the plastics used
Polystyrene is a polymer produced by the polymerization of monomer styrene. It is divided into two main groups: GPPS (General purpose polystyrene) and HIPS (High impact resistant polystyrene). Polystyrene, glass fiber reinforced, flame retardant and cell forming, is used in the electrical & electronics, EPS insulation, automotive, medical and packaging industries. has become an indispensable part.
Polybutylene Terephthalate (PBT) is a crystalline, high molecular weight polymer with excellent processing properties. Because the material crystallizes rapidly, mold cycles are short and molding temperatures Lower than many engineering plastics. PBT has very good dimensional stability. They also have high heat resistance, high gloss, chemical resistance and good electrical resistance. In general, PBTs exhibit excellent resistance to a wide range of chemicals at room temperature, including aliphatic hydrocarbons, gasoline, carbon tetrachloride. Polybutylene Terephthalate is an alternative, especially in the white goods and automotive industries, with its flame retardant, glass fiber reinforced, improved glossy surface and short cycle time process designs. offers solutions.
Polyoxymethylene is abrasion resistant and strong, has low coefficients of friction, has exceptional resistance in high temperature and hot water environments, is almost free of strong bases. It is a plastic that is unaffected and easy to process.With its impact resistant and glass fiber reinforced form, polyoxymethylene offers high strength, improved friction resistance and toughness in products after injection applications.
Polyethylene is one of the most widely used plastics all over the world due to its excellent chemical resistance and easy processability, as well as its cost advantage. Polyethylene has become an indispensable part of the toy industry, general household supplies, food packaging, electronics & electrical, furniture, medical & pharmaceutical, textile industries. Polyethylene can be low density or high density. NZ Plastic offers rational solutions in applications such as injection printing, blow molding, pipe extrusion, etc. with the polyethylene glass fiber and mineral filled compounds it supplies.
Blend products aim to harmonize more than one polymer with different structures with each other. Blend designs offer excellent impact and heat resistance, outstanding aesthetic appearance, easy processability, resistance to environmental factors and mechanical strength.offers development. Blend polymer designs supplied by Bee Polimer are used in many sectors such as automotive, white goods, electrical & electronics, medical devices, small household appliances, furniture, etc. is widely available.
High performance plastics, high temperature resistance, chemical resistance, dimensional stability, high mechanical properties, inherent flame retardancy, resistance to high energy radiation, It offers many features such as low smoke production.High Polymer designs supplied by NZ Plastic are used as an alternative to metal in applications such as the chemical industry, automotive, medical device and space industry. offers solutions.
This product group is produced by grafting maleic anhydride to the base polymer using the reaction extrusion method. Our maleic anhydride grafted polymers are compatible with different polymers and increase their performance. Our products are special solutions that we offer you by grafting different polymers with maleic anhydride ratio varying depending on the grafted application. Maleic anhydride grafted polymers are developed according to the needs of our customers. You can always contact us for your special needs and developments.