1. Plastic injection molding
Injection molding is one of the most commonly used methods for producing plastic components. It involves injecting molten plastic into a mold, where it then hardens and takes the desired shape. Our injection molding machines, with clamping forces ranging from 70 to 450 tons, enable the production of parts weighing up to 1.5 kg. Thanks to a wide range of plastics that can be used, such as PP, PS, ABS, PC, PA, PE, POM, PA6, PA6-GF30, and PA66-GF30, we are able to carry out projects with varying levels of complexity. Injection molding is an ideal solution for mass production series, and thanks to precise process control and advanced molding technology, we offer accurate manufacturing of high-quality components.
2. Plastic blow molding
Blow molding is a technology primarily used for producing containers, bottles, tanks, and other thin-walled components that need to be lightweight yet durable. The process involves shaping the part by blowing air into hot plastic that has been previously injected into a mold. The company has a modern blow molding machine that enables the production of precise, durable, and aesthetically pleasing products made from plastics such as HDPE and PP.
3. Bristle tufting
As a company equipped with our own brush-making machines, we also offer bristle insertion services. Our facility includes modern brush production machines that allow for precise placement of bristles in brush holders. Thanks to this technology, we are able to produce various types of brushes—from simple models to more complex designs tailored to the specific needs of our customers.
4. Thermoforming
We also provide thermoforming services, which is one of the most efficient production processes for creating parts with complex shapes. The process involves heating a sheet of plastic to a specific temperature and then forming it using vacuum or pressure to achieve the desired shape. Thanks to this technology, we are able to produce both simple and more complex components that are characterized by high quality and precision. Thermoforming is particularly suitable for manufacturing larger surface elements, such as packaging, panels, and covers, as well as products that require high aesthetics and precise fitting to the mold.
5. Aluminum Casting
Casting is a process in which molten aluminum is poured into a mold, where it solidifies, taking the desired shape. This technology is used in the production of various components, including automotive parts, machine and equipment elements, as well as precision castings. We have a modern high-pressure aluminum casting line, which allows us to produce components of high quality, excellent strength, and precise workmanship.
We produce aluminum castings from the following alloys, among others:
• EN AC 43400 (DIN 239 D) AlSi10Mg(Fe)
• EN AC 44300 (DIN 230 D) AlSi12(Fe)
• EN AC 46000 (DIN 226 D) AlSi9Cu3(Fe)
• EN AC 47100 (DIN 231 D) AlSi12Cu1(Fe)
• EN AC 43500 (SILAFONT-36) AlSi10MgMn
Thanks to this technology, we are able to fulfill orders both in small and large production series.
Technologies and Materials
Our machines are capable of processing a wide range of plastics, including:
PP (Polipropylen)
Used extensively in industry. It is a material frequently employed in the production of packaging, automotive components, and household appliances.
PS (Polystyrene)
A lightweight material used in the production of small-sized components, often utilized for manufacturing disposable packaging, decorative elements, and containers.
ABS (Acrylonitrile butadiene styrene)
A material characterized by high resistance to mechanical damage, used in the production of electronic components, household appliance housings, and automotive parts.
PC (Polycarbonate)
A material with high impact strength, resistant to high temperatures. Often used for the production of components intended for outdoor applications, such as covers and lighting housings, as well as in the automotive industry.
PA (Polyamide)
Used for the production of components with high mechanical strength and wear resistance, e.g., in the automotive and electronics industries, as well as in the manufacture of precision parts.
PE (Polietylen)
Used in the production of containers and components with high chemical resistance, employed in the manufacture of pipes, packaging, and various everyday-use accessories.
POM (Poliacetal)
A wear-resistant material, used in the production of precision mechanical components such as gears, bearings, and guides.
HDPE (High-density polyethylene)
A material with excellent chemical resistance, widely used for manufacturing containers, pipes, and blow-molded products. Due to its impact strength and weather resistance, it is ideal for producing packaging, chemical tanks, and various types of containers.
PVC (Polyvinyl chloride)
A versatile material used in the production of pipes, installation components, as well as packaging and insulating materials.
TPE (Thermoplastic elastomer)
A material combining the properties of elastomers and thermoplastic plastics. Ideal for producing seals, flexible components, and parts that require flexibility and wear resistance.
PA6 (Polyamide 6)
Used for the production of mechanical components and tools, including gears, transmissions, as well as parts requiring high strength and temperature resistance.
Glass fiber-reinforced polyamide
Glass fiber-reinforced polyamides (e.g., PA6-GF30, PA66-GF30) feature significantly higher mechanical strength, hardness, and resistance to wear and high temperatures. Thanks to these properties, they are mainly used in the production of components for the automotive industry, mechanical parts, including covers, housings, and other parts requiring high rigidity and dimensional stability.miarowej.
Additives and Colorants
In the production process, we use a wide range of antistatic additives, which help reduce the accumulation of electrostatic charges on the surface of the manufactured components. This is particularly important in the production of electronic parts and other precision devices, as well as in any environment where maintaining antistatic properties is required. These additives allow us to ensure the safety and reliability of products, especially in situations where electrostatic discharge could affect the operation of devices.
We offer the possibility of selecting pigments according to the individual requirements of our clients. We are able to deliver products in any color that meets the customer's specifications. We have a wide range of pigments for plastics, as well as specialized additives, which ensure not only aesthetics but also long-lasting color durability over the years. We cooperate with reputable suppliers to ensure the highest quality of coloring and full compliance with technical requirements.
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