Explore delivered press brake and fiber laser projects by country, machine type, material, thickness, and application scenario. These project references help buyers compare similar machine configurations for real fabrication needs.
8 delivered projects available
Documented case studies from real delivered machines — by country, material, and configuration.
A delivered tandem press brake project for an Indonesian sheet metal fabricator handling 12mm carbon steel plates and long heavy workpieces.
Achieved the required bending result for 12mm carbon steel plates
A delivered electric press brake project for a Portuguese sheet metal customer requiring a compact and customized carbon steel bending solution.
Customized electric bending solution delivered successfully
A delivered 4-meter press brake project for medium-to-heavy carbon steel fabrication in the UAE.
Suitable for 8mm carbon steel bending applications and well received during UAE exhibition activities
A delivered tandem press brake project for an Indonesian sheet metal fabricator handling 12mm carbon steel plates and long heavy workpieces.
Achieved the required bending result for 12mm carbon steel plates
A delivered electric press brake project for a Portuguese sheet metal customer requiring a compact and customized carbon steel bending solution.
Customized electric bending solution delivered successfully
A delivered 4-meter press brake project for medium-to-heavy carbon steel fabrication in the UAE.
Suitable for 8mm carbon steel bending applications and well received during UAE exhibition activities
Two CNC press brakes deployed in a German automotive tier supplier for high-cycle chassis and structural stamping component bending, delivering consistent force curves across multi-shift production.
Consistent force curves and dimensional accuracy across thousands of high-cycle repetitions
Fiber laser cutting machine used for solar mounting brackets, support rails and PV structural components with stable quality for project-based orders.
Improved cutting consistency and nesting efficiency for batch bracket production
CNC press brake solution used for electrical cabinet panels, doors and enclosure components with accurate bending and consistent dimensions.
Stable door fit and panel consistency across daily batch production
Fiber laser cutting solution used for tractor structural components, reinforcement plates and agricultural machinery sheet metal parts in thicker materials.
High-quality cutting of thicker agricultural-grade steel with consistent batch results
Fiber laser cutting solution used for construction metal parts such as support brackets, mounting plates and structural connectors in building projects.
Accurate hole patterns and stable dimensions for structural steel fabrication
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Send Us Your Drawing for a Similar RecommendationTell us your material, thickness, part size, and output target. We will recommend a suitable machine or production solution based on similar project experience.
What you manufacture or fabricate
Steel grade and thickness range
Maximum length, width, and height
Pieces per shift or annually
See how these industries are typically served with sheet metal fabrication equipment and workflows.
PV brackets, mounting rails and structural components for solar panel installations.
Control cabinets, distribution boxes and electrical enclosures.
Structural components, brackets and reinforcement plates for farm machinery.
Support brackets, mounting plates and structural connectors for building projects.
These machine categories form the backbone of the sheet metal fabrication projects documented in our case studies.
CNC hydraulic, electric and servo press brakes for precision sheet metal bending. Options for panels, cabinets, furniture and structural parts with consistent angles and dimensions.
Typical use: All applications involving bending, flanging and forming.
View Press BrakesFiber laser cutting machines for sheet and tube. High-speed contour cutting, holes and complex shapes across a range of material thicknesses.
Typical use: Blanking, contours, ventilation cutouts, and secondary operations.
View Laser Cutting MachinesHydraulic guillotine and swing beam shears for straight cutting of sheet metal. Cost-effective blanking where laser is not required for complex shapes.
Typical use: Rectangular blanks, straight cuts, high-volume simple cuts.
View Shearing MachinesFlexible bending centers and panel benders for automated, repeatable panel forming. Minimal setup time — suited to panel-heavy production runs.
Typical use: High-volume electrical cabinets, enclosures, large-format panels.
Browse All MachinesCommon questions about using case studies to guide machine selection and sheet metal production planning.
Yes. If you share your product type, material, thickness range and target output, we can reference similar case studies and propose a machine configuration for your factory. This may include laser cutting machines, press brakes, shearing machines or panel benders, along with practical suggestions on how to arrange them in a sheet metal production flow.
In most sheet metal fabrication shops, one machine type handles related part families. A fiber laser cutter handles blanks, contours and holes; a press brake handles bends and forms. Many of our case studies show how manufacturers use the same machine for multiple part types within an industry — a press brake configured for cabinet doors also handles side panels and mounting plates.
Start by matching your industry and product type. Use the filters on this page to narrow by process (laser cutting, press brake), material and thickness range. Even if there is no exact match, a similar project in solar, electrical cabinets, agricultural machinery or construction metal parts provides a useful reference point for machine selection.
Yes. Material grade and thickness are key inputs for machine configuration. For laser cutting, they determine required power. For press brakes, they affect tonnage and tooling choices. Share your material specifications and thickness range, and we will recommend configurations that match your production requirements.
Yes. Machine configurations are built around your specifications — bed length, tonnage, laser power, automation level and tooling options are all matched to your part size, thickness and throughput targets. We build to your requirements, not a default catalogue spec.
After receiving your requirements, we typically respond with a configuration proposal within 24–48 hours. Lead times vary by machine type and configuration complexity, ranging from 4–12 weeks for standard configurations to 12–20 weeks for fully customized builds. We provide clear timelines during the proposal stage.
Share your drawing, material, thickness, and production goal — we will recommend a suitable machine configuration based on similar project experience.