Services
No technical drawing for your part? No worries.
Our engineers will take care of that and guide you from the beginning to the very last details of your project
We operate state-of-the-art 6kW laser cutting machines with bed sizes up to 4000 × 2000 mm, enabling precise, efficient cutting and high productivity for large and high-volume components.
With oxy fuel technolgy, we are able to cut thicker metal sheet, up to 250 mm
Bending with 320 tons force, 4300 mm
Committed to quality, commited to you.
We are committed to getting involved in all stages of a project, from the very beginning to the final touches.
Machinery
In the latest years, we have focused on enlarging our list of equipment, in order to be able to meet our customers demands quickly and effectively.
Bystronic Xpert Pro 320
• Maximum folding length – 4300 mm
• Maximum force – 320 tons
• Extensive range of tools
• Highly skilled operators
Bystronic Bystar 4020
• 4000 x 2000 cutting capacity
• Wide range of materials and thicknesses with a superior finish
• Economical processing of thick sheet metal
Bystronic Byspeed 3015
• 3000 x 1500 cutting capacity
• High cutting speed
• Economical processing of thin sheet metal
SHARK 382-1 SXI EVO
• Maximum part size: 380 x 250 mm
• Square: 250 x 250 mm
• Round: 300 mm
Omnicut MGM
• Cutting thicknesses up to 150 mm
• Sheet size up to 12000 mm x 3000 mm
• Multihead flame cutting capability
SATO Satronic DHDS 4600
• Cutting thicknesses up to 250 mm
• Sheet size up to 12000 mm x 3000 mm
• Multihead flame cutting capability
KEMPPI Welding Machines X3P FastMig
• High-capacity welding machine for demanding environments
• Welding wide ranges of materials
Flexmark Marking Machine
• Dot peen marking for various applications
• Maximum dimension of marking: 60 x 120 mm
Bystronic Bystar 4020
• 4000 x 2000 cutting capacity
• Wide range of materials and thicknesses with a superior finish
• Economical processing of thick sheet metal
Bystronic Byspeed 3015
• 3000 x 1500 cutting capacity
• High cutting speed
• Economical processing of thin sheet metal
Omnicut MGM
• Cutting thicknesses up to 250 mm
• Sheet size up to 12000 mm x 3000 mm
• Multihead flame cutting capability
• Full range of steel in stock
Gasparini PBS 165
• Maximum folding length – 3100 mm
• Maximum force – 165 tons
• Extensive range of quality tools
• Highly skilled operators
Bystronic Bystar 4020
• 4000 x 2000 cutting capacity
• Wide range of materials and thicknesses with a superior finish
• Economical processing of thick sheet metal
Bystronic Byspeed 3015
• 3000 x 1500 cutting capacity
• High cutting speed
• Economical processing of thin sheet metal
Omnicut MGM
• Cutting thicknesses up to 250 mm
• Sheet size up to 12000 mm x 3000 mm
• Multihead flame cutting capability
• Full range of steel in stock
Gasparini PBS 165
• Maximum folding length – 3100 mm
• Maximum force – 165 tons
• Extensive range of quality tools
• Highly skilled operators
Sheet metal cutting thicknesses
Why choose laser cutting?
Laser cutting is a process which works by programming a high-powered laser in order to cut shapes out of your chosen material. Compared to other cutting technologies, laser cutting is more accurate and uses less energy. Laser cutting allows us to cut complex shapes and small diameter holes at similar or faster speeds than other cutting methods and without the need for tooling. Due to the laser's ability to maintain integrity while cutting, precision and edge quality from laser cutting are superior to those from mechanical cutting techniques. It also leads to reduced contamination of the finished product.
Precision
Best precision provided in comparison to other technologies
Complex shapes
Complex shapes with small diameter holes can be easily cut
High edge quality
Minimal contamination of the finished product
Reduced costs
No need for machining or tooling, lowering the cost of production
Why choose laser cutting
Laser cutting is a process which works by programming a high-powered laser in order to cut shapes out of your chosen material. Compared to other cutting technologies, laser cutting is more accurate and uses less energy. Laser cutting allows us to cut complex shapes and small diameter holes at similar or faster speeds than other cutting methods and without the need for tooling. Due to the laser’s ability to maintain integrity while cutting, precision and edge quality from laser cutting are superior to those from mechanical cutting techniques. It also leads to reduced contamination of the finished product.
Precision
Best precision provided in comparison to other technologies
Complex shapes
Complex shapes with small diameter holes can be easily cut
High edge quality
Minimal contamination of the finished product
Reduced costs
No need for machining or tooling, lowering the cost of production
Why choose laser cutting
Laser cutting is a process which works by programming a high-powered laser in order to cut shapes out of your chosen material. Compared to other cutting technologies, laser cutting is more accurate and uses less energy. Laser cutting allows us to cut complex shapes and small diameter holes at similar or faster speeds than other cutting methods and without the need for tooling. Due to the laser’s ability to maintain integrity while cutting, precision and edge quality from laser cutting are superior to those from mechanical cutting techniques. It also leads to reduced contamination of the finished product.
Precision
Best precision provided in comparison to other technologies
Complex shapes
Complex shapes with small diameter holes can be easily cut
High edge quality
Minimal contamination of the finished product
Reduced costs
No need for machining or tooling, lowering the cost of production
Why choose laser cutting
Laser cutting is a process which works by programming a high-powered laser in order to cut shapes out of your chosen material. Compared to other cutting technologies, laser cutting is more accurate and uses less energy. Laser cutting allows us to cut complex shapes and small diameter holes at similar or faster speeds than other cutting methods and without the need for tooling. Due to the laser’s ability to maintain integrity while cutting, precision and edge quality from laser cutting are superior to those from mechanical cutting techniques. It also leads to reduced contamination of the finished product.
Why choose laser cutting?
Laser cutting is a process which works by programming a high-powered laser in order to cut shapes out of your chosen material. Compared to other cutting technologies, laser cutting is more accurate and uses less energy. Laser cutting allows us to cut complex shapes and small diameter holes at similar or faster speeds than other cutting methods and without the need for tooling. Due to the laser’s ability to maintain integrity while cutting, precision and edge quality from laser cutting are superior to those from mechanical cutting techniques. It also leads to reduced contamination of the finished product
Why choose laser cutting?
Laser cutting is a process which works by programming a high-powered laser in order to cut shapes out of your chosen material. Compared to other cutting technologies, laser cutting is more accurate and uses less energy. Laser cutting allows us to cut complex shapes and small diameter holes at similar or faster speeds than other cutting methods and without the need for tooling. Due to the laser’s ability to maintain integrity while cutting, precision and edge quality from laser cutting are superior to those from mechanical cutting techniques. It also leads to reduced contamination of the finished product
Laser cut parts
Why choose oxy fuel cutting
Oxy fuel, often known as flame cutting is an efficient and cost-effective method of cutting steel. Our accurate in-house programming ensures cost-effective processing in accordance with each customer’s unique requirements. It is the best option for carrying out high production runs with quick lead times and reduced costs. With multi-head cutting machines and large cutting beds, even on thick material such as mild steel up to 250mm thick, Oxy fuel cutting is the ideal choice or performing high production runs on short lead times at a low cost per part.
Why choose oxy fuel cutting
Oxy fuel, often known as flame cutting is an efficient and cost-effective method of cutting steel. Our accurate in-house programming ensures cost-effective processing in accordance with each customer’s unique requirements. It is the best option for carrying out high production runs with quick lead times and reduced costs. With multi-head cutting machines and large cutting beds, even on thick material such as mild steel up to 250mm thick, Oxy fuel cutting is the ideal choice or performing high production runs on short lead times at a low cost per part.
Why choose oxy fuel cutting
Oxy fuel, often known as flame cutting is an efficient and cost-effective method of cutting steel. Our accurate in-house programming ensures cost-effective processing in accordance with each customer’s unique requirements. It is the best option for carrying out high production runs with quick lead times and reduced costs. With multi-head cutting machines and large cutting beds, even on thick material such as mild steel up to 250mm thick, Oxy fuel cutting is the ideal choice or performing high production runs on short lead times at a low cost per part.
Oxy fuel cut parts
Ready for assembly parts with bending services
Sheet metal forming uses a brake press machine to apply bends on a range of metals including mild, wear resistant and high strength steel. Combining the latest metal pressing technologies, we deliver exceptional bend accuracy. We operate press brake machines to meet a range of project and material requirements. Sheet metal forming capabilities extend to 3100mm width with up to 160-tonne force. With highly skilled operators and an extensive range of quality tools, we make sure parts are accurate and on time. One of the key benefits of sheet metal bending is the reduction of joining processes such as welding. As a result, bending delivers greater part strength and simplified assembly.
Ready for assembly parts with bending services
Sheet metal forming uses a brake press machine to apply bends on a range of metals including mild, wear resistant and high strength steel. Combining the latest metal pressing technologies, we deliver exceptional bend accuracy. We operate press brake machines to meet a range of project and material requirements. Sheet metal forming capabilities extend to 3100mm width with up to 160-tonne force. With highly skilled operators and an extensive range of quality tools, we make sure parts are accurate and on time. One of the key benefits of sheet metal bending is the reduction of joining processes such as welding. As a result, bending delivers greater part strength and simplified assembly.
Bending
Sheet metal forming uses a brake press machine to apply bends on a range of metals including mild, wear resistant and high strength steel. Combining the latest metal pressing technologies, we deliver exceptional bend accuracy. We operate press brake machines to meet a range of project and material requirements. Sheet metal forming capabilities extend to 3100mm width with up to 160-tonne force. With highly skilled operators and an extensive range of quality tools, we make sure parts are accurate and on time. One of the key benefits of sheet metal bending is the reduction of joining processes such as welding. As a result, bending delivers greater part strength and simplified assembly.
Bent parts
Bent parts
