Technology supported by the highest standards
In our company, we ensure the highest quality of products and services through an implemented ISO 9001 quality management system. We focus on continuous improvement of employee skills and production processes, which includes full documentation of entrusted mold work and regular maintenance and cleaning of injection molds. Our tracking system allows for product lifecycle monitoring from raw material to shipment.
We also care about the environment by implementing ISO 14001 standards, recovering heat generated during production, and utilizing energy from our own photovoltaic power plant. Our energy-efficient lighting and advanced waste segregation system contribute to effective recycling, which has earned us the Green Company certificate. We actively support local social initiatives and continuously improve working conditions, focusing on safety and hygiene.
1K Injection of thermoplastics
1K Injection, or single-component injection, is a plastic processing technology in which only one type of material, usually a thermoplastic, is used to form the product. The process involves injecting molten plastic into a mold, where the material solidifies to create the finished part.
Key features of single-component injection include:
- Simplicity of the process: Using a single type of material makes production less complex and more efficient.
- Wide application: 1K injection is ideal for producing uniform plastic parts, such as housings, technical components, automotive parts, and household appliance details.
This technology is very popular in the industry due to its low cost and quick production turnaround.
Compression and Injection of Thermosets
1. Compression Molding of Thermosets
This technology involves forming the material in a plastic state and then curing it under high temperature and pressure. Thermoset granules or preforms are placed in a mold, and a press compresses the material, which undergoes chemical curing due to the heat and pressure. The result is a durable and resilient component with a specified shape.
- Applications: Production of electrical components, covers, and resistant elements.
- Advantages: High resistance to temperature and chemical exposure.
2. Injection Molding of Thermosets
Injection molding of thermosets is similar to thermoplastic injection, with the difference that thermosets cure in the mold under high temperature. The material is heated to the appropriate temperature, but instead of cooling as with thermoplastics, a curing process occurs, resulting in a rigid material that cannot be remelted.
- Process: Thermoset powder or granules are plasticized at a low temperature and injected into a mold. There, under high temperature and pressure, cross-linking occurs, leading to material curing.
- Applications: Components requiring high thermal and mechanical strength, such as automotive parts, tools, and electrical insulation.
Advantages of Thermosets:
- Durability: Once cured, they are resistant to high temperatures, chemicals, and deformation.
- Dimensional Stability: Thermosets retain their shape, do not melt or soften under heat, making them ideal for components requiring thermal stability.
These technologies are often used where high strength and chemical stability are required, such as in the automotive and electrical industries.
Overmolding
Overmolding is a process in which one material, usually flexible or thermoplastic, is injected over a previously molded component – a base material that can be another plastic or metal.
This process aims to:
- Enhance functionality: Add a protective layer, improve grip, or increase user comfort.
- Aesthetics: Use different colors or textures to achieve an attractive appearance.
- Component integration: Reduce the number of parts in the final product, simplifying assembly.
- Applications: Electronic components, tool grips, automotive parts, where combining materials in one component is advantageous.
Insert Molding
Insert molding is a process in which metal or plastic inserts are placed in a mold, and then material is injected around them. The result is a component where the insert is integrally bonded with the plastic.
This process enables:
- Stability and strength: Metal inserts can enhance the structural strength of the final product.
- Functionality: Addition of features like threads, eliminating the need for additional assembly processes.
- Cost savings: Reducing the number of production operations and shortening assembly time.
- Applications: Mechanical parts, tool housings, automotive components, where durability and functionality are essential.
Both processes allow for the efficient combination of various materials and components into a single product, increasing the functionality, aesthetics, and durability of plastic parts. The choice between them depends on the specific application and the requirements for the final product’s properties.
Machine Park
Our company continuously modernizes and upgrades its machine park to stay aligned with the latest injection molding technologies. We have invested in a range of equipment, from traditional presses and analog injectors to fully automated injection molding machines with robots and hybrid hydraulic-electric machines. These modern machines, equipped with infrared heating systems, are not only more efficient but also save energy, which is essential for sustainable development.
In our machine park, we have 36 thermoplastic injection molding machines with clamping forces from 25 to 1000 tons, capable of molding parts with weights ranging from 0.1g to 3300g. Most of them are equipped with robots and pickers for automatic part removal and conveyors, streamlining the production process. We also use separators to separate parts from the injection system, and slow-speed grinders enable sprue recycling. Additionally, automatic material feeders, dryers, and mixers prepare raw materials, allowing our production to operate in a zero-waste system. We also have an advanced vision detection system that checks each injected part’s accuracy. We also offer 4 injection molding machines and presses for thermoset materials.
| Machine Type | Clamping Force [kN] | Injection Volume [cm³] | Column Spacing (Width) [mm] | Column Spacing (Height) [mm] | Mold Height [mm] | ROBOT |
| BOLE BL1000DK/Z5900 | 1,000 | 3,181 | 1,160 | 1,020 | 450-1100 | WITTMANN |
| BOLE DK0650-1004 | 650 | 2085 | 960 | 860 | 550:1200 | WITTMANN |
| BOLE BL470EKS/C3000 | 470 | 1,634 | 810 | 760 | 300:820 | WITTMANN |
| Battenfeld TM4500/1300 | 450 | 1656 | 800 | 800 | 300:770 | BATTENFELD |
| Battenfeld HM 350/3400 | 350 | 1600 | 800 | 620 | 200:750 | WITTMANN |
| BORCHE BS 260 | 260 | 341 | 575 | 575 | 195-600 | SHINI |
| BORCHE BS 200 PLUS | 200 | 341 | 510 | 510 | 180-550 | SHINI |
| BORCHE BS 200 | 200 | 341 | 510 | 510 | 180-550 | SHINI |
| Engel ES 1050/175 HL-v | 175 | 550 | 650 | 600 | 180-500 | ENGEL |
| Battenfeld HM 160/750 | 160 | 440 | 560 | 510 | 300:950 | |
| Battenfeld TM 1600 | 160 | 358 | 520 | 520 | 225:550 | |
| Battenfeld TM 1600/750 | 160 | 359 | 520 | 520 | 226:550 | |
| Battenfeld TM 1600/750 | 160 | 360 | 520 | 520 | 227:550 | |
| Battenfeld TM 1600/750 | 160 | 361 | 520 | 520 | 228:550 | |
| Arburg 470C 1500-400 | 150 | 318 | 470 | 470 | 250:750 | WITTMANN |
| Arburg 420C 1300-250 | 130 | 188 | 420 | 420 | 250:750 | WITTMANN |
| Arburg 420C 1300-250 | 130 | 188 | 420 | 420 | 250:750 | WITTMANN |
| Engel ES 330/125 HL | 125 | 113 | 740 (for molds L>580) | 580 (700) | 130:600 | |
| BOLE BL100EKH/C340 | 100 | 183 | 405 | 355 | 430-160 | PICKER-WITTMANN |
| Battenfeld HM 80/525E | 80 | 250 | 420 | 370 | 225:700 | WITTMANN |
| Demag 80/420 | 80 | 177 | 395 | 395 | 150:392 | |
| Battenfeld BA750/315 CDK | 75 | 201 | 370 | 370 | 150:400 | |
| Battenfeld TM 750/210 | 75 | 144 | 370 | 370 | 200:400 | |
| Arburg 320K 700-250 | 70 | 144 | 320 | 320 | 200:430 | |
| Arburg 320K 700-250 | 70 | 144 | 320 | 320 | 200:430 | |
| Arburg 370S 600-150 | 60 | 85 | 370 | 370 | 200:600 | PICKER-WITTMANN |
| Battenfeld HM 60/210 | 60 | 144 | 370 | 230 | 196:450 | |
| Battenfeld HM 60/210 | 60 | 144 | 370 | 230 | 196:450 | |
| Engel victory 200/50 spex | 50 | 99 | 500 | 450 | 190:450 | |
| Engel ES 200/40 HL | 40 | 68 | 320:550 | |||
| Battenfeld PLUS 35/75 | 35 | 38 | 270 | 270 | 160:350 | |
| Battenfeld PLUS 35/75 | 35 | 38 | 270 | 270 | 160:350 | |
| Battenfeld PLUS 250/50 | 25 | 29 | 280 | 400 | 125:250 | |
| Battenfeld BA250/125 CDC | 25 | 29 | 270 | 270 | 125:250 |
Let’s talk about what your company needs.
We will help you optimize the production costs of plastic products. Whether you’re looking to relocate existing production or start a new one – we provide support at every stage. Fill out the form so we can discuss your project, provide a quote, and then outline the proposed steps for moving forward.