Advanced laser and plasma cutting systems engineered for high-accuracy sheet metal profiling across diverse thickness ranges and material types.
Our cutting infrastructure supports prototype development, batch production, and high-volume manufacturing with consistent dimensional control and surface integrity.
Key Advantages
🔹 High Precision Cutting
🔥 Minimal Heat-Affected Zones (Laser)
⚡ Fast Turnaround for Production Runs
🎯 Repeatable CNC-Controlled Accuracy
📈 Scalable for Small & Large Projects
Precision Sheet Metal Cutting for Demanding Applications
Our Precision Sheet Metal Cutting operations support a wide range of materials and dimensional requirements —for smaller parts to large industrial components.
Sheet Thickness from 0.5 mm to 300 mm
Bed Sizes up to 6000 mm x 2500 mm
Laser & Plasma Cutting Technologies
Accuracy up to ±0.2 mm
Prototype to Production
Cutting Technologies
| CO₂ Laser Cutting | Reliable precision cutting for thin to medium sheet thickness applications |
| Fiber Laser Cutting | High-speed, energy-efficient cutting for superior edge quality and tighter tolerances. |
| ND Laser Cutting | Controlled cutting for specific precision sheet applications |
| CNC Plasma Cutting | Cost-effective solution for thicker sheet and structural steel cutting |
| Oxy-Fuel Gas Cutting | Heavy-plate cutting capability for high-thickness carbon steel components |
Materials we cut
| Material | Applications |
|---|---|
| Mild Steel (Carbon Steel) | Structural & Fabrication |
| Stainless Steel | Industrial & Equipment |
| Aluminium | Lightweight Assemblies |
| Copper | Electrical Components |
| Brass | Precision Parts |
| Galvanized Steel | Coated Sheet Applications |
| Alloy Steel | Heavy Engineering |
Dimensional Capability
Our Cutting to Engineered for large-format sheet processing with consistent cutting accuracy
| Parameter | Capability |
|---|---|
| Minimum Sheet Thickness | 0.5 mm |
| Maximum Cutting Thickness | Up to 300 mm (Oxy-Fuel) |
| Standard Bed Size | 1500 mm x 3000 mm |
| Large Format Beds | Up to 6000 mm x 2500 mm |
| Accuracy Level | ±0.2 mm to ±2 mm (Process Dependent) |
Machine Specifications
High-precision CNC-controlled laser cutting systems
Table Length: 2520 mm / 5040 mm
Cutting Width: 1550 mm
CNC-Controlled Positioning
Cutting Power: 4000 W
Multi-Material Processing Capability
CNC Plasma & Oxy-Fuel Specifications
Heavy-duty cutting platforms for thicker plate processing
CNC Plasma Systems (Swift-Cut Pro)
Cutting Thickness: Up to 100 mm (Plasma)
Cutting Thickness: Up to 100 mm (Plasma)
Oxy-Fuel Cutting: Up to 300 mm
Cutting Width: Up to 3000 mm
Adjustable Feed & Gas Control
Integrated Quality Control
Quality is integral to every stage of our sheet metal manufacturing process. From incoming raw material inspection to final assembly verification, we maintain strict control to ensure dimensional accuracy, structural integrity, and surface finish.
Our process includes material certification checks, in-process inspections during cutting, bending, and fabrication, and final quality validation using calibrated measuring instruments. Critical parameters such as thickness, bend angles, tolerances, and weld quality are continuously monitored to meet design and industry standards.
By integrating quality control across the entire workflow, we ensure consistency, repeatability, and reliable performance in every component delivered.
- Engineering & Validation Infrastructure
At Graphler Precision Manufacturing, our production capabilities are supported by structured engineering processes, inspection systems, and technical validation practices that ensure precision, reliability, and repeatability at every stage.
Process Engineering Support
We conduct feasibility reviews, DFM analysis, and machining strategy planning to optimize, manufacturability, reduce risk, and improve production efficiency before execution begins.
Dimensional Inspection & Verification
Our quality systems incorporate calibrated measurement tools, in-process inspection, and final validation to ensure components meet specified tolerances and functional requirements.
Continuous Process Optimization
Through structured feedback loops and performance monitoring, we refine cycle times, tool strategies, and machining parameters to deliver consistent quality and scalable production outcomes.