Laser Cutting, CNC Bending and Subcontract Cutting Services in Győr
Laser cutting and sheet metal work
Looking for contract laser cutting services for metals? You’ve come to the right place. At Ferolaser, we offer first-class laser cutting services using our state-of-the-art Trumpf machine. With our advanced technology and expert team, we can process a wide range of materials, including mild steel, hardened steel, stainless steel, tool and spring steel, cold-rolled steel, as well as aluminium and aluminium alloys.
Whether you need one-off production or large manufacturing runs, we have the capacity to fulfill your requirements with exceptional quality. Contact us today and experience our precision laser cutting services.
CNC Bending
For laser-cut parts, one of the most frequent requests we receive is precision press braking. This is essential to ensure a perfect fit in the next stage of the manufacturing process. Our company specializes in providing precise bending services tailored to your specific requirements, keeping the need for rework to an absolute minimum.
Whether you require simple bends or complex shapes, our state-of-the-art machinery and skilled professionals can meet your exact specifications. Trust us to deliver high-quality, cost-effective solutions for all your bending needs.
Powder coating, welding and fabrication works
While our core expertise lies in other areas, we understand just how important high-quality powder coating and fabrication work are for your final products. That is why we have built strong partnerships with experts in these fields, ensuring you have access to the best services available. Our partners are dedicated to delivering exceptional results, utilizing the latest techniques and technologies to achieve outstanding finishes.
Whether your metal products require custom-color powder coating or professional welding and assembly services, our partners can provide the exact solutions you need.
Here are the metals we can cut and process using our techonlogies
- Structural steel
- Hardened steel
- Stainless steel (V2A / 304)
- Stainless steel (V4A / 316)
- Mild steel
- Tool steel
- High-speed steel (HSS)
- Cold-rolled steel
- Aluminium and aluminium alloys
Further Information on Our Laser Cutting Services and Technical Specifications
Technology and Its Advantages
Laser cutting is a modern, precision technology that is essential across numerous industries. The advantages of laser cutting include high accuracy, rapid cutting speeds, and minimal material waste. Our Trumpf laser cutting machines ensure superior quality and reliability for every project.
Fields of Application
Laser cutting is utilized across a wide range of industries, including automotive, construction, furniture manufacturing, as well as electronics and medical device production. The technology’s versatility allows us to work with a diverse array of materials, including various metals and alloys.
Our Machinery
Our state-of-the-art precision machinery allows us to execute various metalworking tasks with maximum efficiency and accuracy. Below, we present our laser cutting and bending machines, along with their technical specifications and material processing capabilities.
TRUMPF TruLaser 3030
The TRUMPF TruLaser 3030 laser cutting machine is a state-of-the-art CO₂ laser, ideal for metal cutting tasks that require high precision.
- Working Range:
- Max. sheet lenght: 3000 mm
- Max. sheet width: 1500 mm
- Laser Power: 5000 W
- Laser Type: CO₂
- Max. Sheet Thickness: 25 mm
- CNC Control: Siemens Sinumerik 840 D
- Axis Travel:
- X-axis: 3000 mm
- Y-axis: 1500 mm
- Z-axis: 115 mm
- Max. Workpiece Weight: 900 kg
TRUMPF Trumatic L3050
A TRUMPF Trumatic L3050 egy erőteljes CO₂ lézervágó gép, amely nagy teljesítményével különösen alkalmas vastagabb anyagok vágására.
- Working Range:
- Maximális fémlemez hossz: 3000 mm
- Maximális fémlemez szélesség: 1500 mm
- Laser Power: 6000 W
- Laser Type: CO₂
- Max. Sheet Thickness: 25 mm
- Axis Travel:
- X-axis: 3000 mm
- Y-axis: 1500 mm
- Z-axis: 115 mm
- Max. Workpiece Weight: 900 kg
TruBend 5130
The TruBend 5130 press brake, with its high press force and exceptional precision, is ideal for bending various types of sheet metal, including long-format workpieces.
- Max. Press Force: 1300 kN
- Year of Manufacture: 2011
- Max. Bending Length: 3230 mm
Material Processing Capabilities
| Material | TruLaser 3030 Max cutting sheet metal thickness | Trumatic L3050 Max cutting sheet metal thickness | TruBend 5130 Max bending sheet metal thickness |
|---|---|---|---|
| Steel | 25 mm | 25 mm | 15 mm |
| Stainless steel | 20 mm | 20 mm | 12 mm |
| Aluminium | 15 mm | 15 mm | 8 mm |
Please note: The thicknesses listed above reflect our maximum cutting and bending capacities. To ensure optimal results, the specific material type and thickness will always depend on the exact requirements of the project.
With our advanced technological capabilities, we ensure the efficient delivery of complex precision metalwork that meets top-tier industrial specifications.
Quality Assurance and Environmental Protection
Our company is committed to upholding the highest quality standards. We implement rigorous quality assurance procedures to ensure that our final products consistently meet your expectations. Furthermore, we prioritize sustainability by utilizing eco-friendly technologies and practices:
- Solar-Powered Production: Our laser cutting and press brake machines are powered by solar energy.
- Advanced Nesting Systems: We utilize latest-generation nesting software to maximize material efficiency and minimize sheet metal waste.
- Recycled Materials: We incorporate recycled metals into our manufacturing processes whenever possible.
- Waste Reduction: We prioritize the correction and reworking of defective parts to minimize material waste and reduce scrap.
- Eco-Friendly Packaging: We primarily use recycled cardboard-based packaging materials, significantly reducing the use of plastics in industrial manufacturing.
- Sustainable Logistics: Our transparent lead times help partners optimize their logistics and reduce emissions. We also encourage coordinated shipping for nearby clients to reduce costs and the environmental impact for all parties involved.
Laser cutting – more than just an advancement. It’s a path to progress!
The Ferolaser team is committed to more than just providing exceptional laser cutting services; we strive to grow and evolve alongside our partners. We believe that shared success is built on active collaboration and the achievement of common goals. Every day, we work to create new opportunities and reach the next level together with our clients.
Your success is our success. Are you looking for a partner who doesn’t just meet your needs but anticipates them? A team that views every challenge as an opportunity and every project as a vehicle for mutual growth? At Ferolaser, proactivity is not just a slogan – it is the core of our daily operations.
Imagine working with a team that approaches your projects with the same passion and dedication as you do. We work tirelessly to ensure you and your company achieve the best possible results. We believe in innovation, continuous improvement, and the power of achieving great things together.
Now is the time to take a step forward. Contact us today and let’s start building the future together. Request a quote and experience the strength of shared work and common goals. Let’s embark on the path to success together!
Put us to the test and discover what you can achieve with us.
Explore our history and the values we stand for
Frequently Asked Questions (FAQ)
What is laser cutting and how does it work?
Laser cutting is an advanced technology where a focused laser beam heats the material with high energy to cut it precisely. The temperature generated by the laser is so intense that the material either melts or vaporizes, resulting in clean, high-quality cuts. During the process, the laser beam is typically guided by a computer-controlled (CNC) mechanism, which allows for extreme precision and the creation of intricate patterns. There are different types of lasers, such as CO₂ lasers, which are primarily used for non-metallic materials, and fiber lasers, which are capable of cutting through stronger materials like metals.
What is a laser cutter and what is it used for?
A laser cutter is a prototyping and manufacturing tool used to cut, engrave, and shape materials using a laser beam. Laser cutters are highly popular in industrial sectors, especially in metalworking, because they operate with high precision and produce minimal waste. These machines work with CAD (Computer-Aided Design) software, enabling designers to create digital plans that are then processed directly by the laser cutter. They are widely used in the automotive, construction, and aerospace industries, as well as in arts and crafts.
Why is laser cutting considered expensive?
Several factors contribute to the cost of laser cutting. First, acquiring and maintaining laser cutting machines requires significant financial investment. These machines are costly because they offer advanced technology and high precision, which is critical for complex industrial applications. Additionally, energy consumption can be high, particularly for high-power machines. Furthermore, laser cutting processes often require highly skilled personnel and specialized expertise, which also adds to the overall cost.
What are the advantages and disadvantages of laser cutting?
Laser cutting offers numerous benefits, including high precision, speed, and the versatility to cut a wide range of materials such as metals, plastics, wood, and textiles. However, it also has some drawbacks, such as high initial costs and the fact that cutting thicker materials can be more difficult as the laser beam may lose efficiency. Additionally, the heat generated during the process (the heat-affected zone) can sometimes distort or damage sensitive materials.
What materials can be processed with laser cutting?
A wide variety of materials can be processed, including metals (steel, aluminium, copper, brass), plastics (acrylic, polycarbonate), wood, leather, paper, glass, and textiles. The versatility of laser technology allows for cutting materials of different types and thicknesses, although certain materials, such as very thick metals or specific types of glass, can present greater technical challenges.
What is the difference between a CO₂ laser and a fiber laser?
CO₂ lasers have been the industry standard for decades. They are primarily used for materials that absorb infrared radiation well, such as wood, plastic, textiles, glass, and some metals. CO₂ lasers have a longer wavelength (approximately 10.6 micrometers), making them suitable for cutting thicker materials like steel or aluminium, but they are less efficient at cutting reflective materials (such as copper or brass). While they provide precise cuts and smooth edges, their operating costs can be higher due to higher energy consumption and complex cooling systems.
Fiber lasers are a more recent development and have quickly become the leader in many industrial applications, particularly in metalworking. These lasers have a shorter wavelength (approximately 1 micrometer), which makes them excellent for cutting reflective materials like copper and aluminium. Fiber lasers consume less energy, are faster, and offer superior beam quality, resulting in higher precision and a smaller cutting width (kerf), especially in thinner materials. However, the initial investment cost for fiber laser systems can be higher.
Our team
Ferencz Róbert †
Alapító
Árkosi-Berger Péter Dávid
Ipari gyártási Operátor