Laser Cutting Service

Zorapid delivers tailored laser cutting solutions for aluminum, steel, and technical polymers, integrating rapid prototyping and mass production into one reliable service.

Accurate cutting, clean finish and superior cost efficiency.

Why Partner with Zorapid for Laser Cutting?

Choose Zorapid laser cutting: proven precision, fast lead time, full technical support & broad material fit, ideal for prototype and small-batch precision parts.

Precision laser cutting process for metal sheets, showing clean cuts on stainless steel and aluminum

Explore Zorapid Laser Cutting Capabilities

Equipped with high-power fiber lasers for complex industrial cutting. We deliver fine edges & tight tolerances, fit all materials and thicknesses. Strict quality control covers prototype to mass production.

Inert Gas Laser Cutting

High-purity nitrogen shielding eliminates oxidation for pristine oxide-free edges. No extra finishing needed, ready for welding & coating directly.

Laser Flame Cutting

Heat-accelerated cutting works best for thick steel. Fast cuts, solid structure, reliable and budget-friendly for heavy industry parts.

Laser Sublimation Cutting

Vaporization cutting avoids melting. Ideal for PTFE, PEEK & fine materials, precise zero-dross edges. Low HAZ secures stable specs.

Fiber Laser Fine Cutting

Ideal for thin metal & intricate shapes, ±0.05mm tolerance. Fine narrow kerf suits electronics & medical parts with precise smooth edges.

Materials of Laser Cutting Services at Zorapid

Zorapid offers custom laser cutting solutions for all industries. High-power fiber lasers ensure top precision across all materials.

Metal Laser Cutting

We specialize in fast, ultra-precise sheet metal work.

Plastic & Polymer Laser Cutting

Precision non-contact laser cutting for industrial non-metals.

Laser Cut Surface Finishing

Our laser cut surface finishing removes slag & heat discoloration, offering deburring, blasting, anodizing, powder coating and polishing for better appearance, corrosion resistance and precision assembly.

As-Machined Finish

Direct CNC surface with fine tool marks. A cost-effective choice for functional prototypes and non-critical parts.

Polishing

Mirror finish down to Ra 0.2 μm. Ideal for luxury goods, optics, and parts requiring a flawless aesthetic.

Anodizing

Premium aluminum finish boosting corrosion resistance and durability, with custom color options available.

Sand Blasting

Creates a uniform matte texture.

Improving coating adhesion and hiding surface imperfections.

Brushed Finish

Smooth satin texture that hides minor scratches. Ideal for visible parts in consumer electronics and luxury goods.

Electropolishing

Mirror-smooth metal finish that boosts corrosion resistance, ideal for stainless steel and medical parts.

Powder Coating

Durable, eco-friendly polymer coating with vibrant colors and excellent UV/wear resistance.

Black Oxide Coating

Thin magnetite layer on steel, improving corrosion resistance with no dimensional change during treatment.

Alodine

Conductive aluminum coating that improves corrosion resistance and paint adhesion.

Tumbling

Removes burrs and creates a smooth finish, with no dimensional distortion.

Heat Treatment

Vacuum process to adjust metal hardness, strength, and toughness for high-stress applications.

Nickel Electroplating

Even nickel layer enhancing conductivity, corrosion protection, and wear resistance for industrial parts.

Our Tolerances in Laser Processing

We offer laser cutting with ±0.02~±0.15mm precision per material thickness. Advanced lasers & smooth workflow ensure accurate, consistent batches. Full inspection and finishing guarantee flawless prototype parts.

Advanced Laser Cutting Technology Comparison Table

Advanced laser cutting technology in operation, showing high-precision cuts on metal sheets for industrial parts

Dimensional Tolerances by Material Thickness – Table

Dimensional tolerances chart for sheet metal fabrication, showing precision standards based on material thickness

Typical Application Industries of Laser Cutting

FAQ

1.What is the recommended minimum hole diameter relative to material thickness?

To maintain optimal edge quality and dimensional accuracy, we generally recommend a 1:2 ratio of hole diameter to material thickness. With our high-precision fiber laser technology, we can often achieve tighter ratios (down to 1:1 or better) for specialized applications. We recommend submitting your design files for a quick technical review to confirm the best approach for your intricate features.

At Zorapid Rapid, we prioritize cost efficiency from the very start by offering complimentary DFM (Design for Manufacturing) suggestions with every quote. Our engineering team analyzes your part nesting, geometry, and material selection to minimize waste, streamline production time, and eliminate unnecessary steps—passing those direct savings to you while upholding the highest quality standards.

Speed is at the core of our service. For standard laser cutting projects with finalized, ready-to-use CAD files, we typically deliver functional prototypes within 24 to 48 hours. Our robust workflow is designed to support your most demanding R&D timelines and production deadlines, ensuring reliable, fast turnaround without sacrificing quality.

Zorapid Rapid delivers industry-leading standard tolerances of ±0.10 mm to ±0.15 mm for most laser cutting applications. For projects requiring ultra-precision, our Fiber Laser Fine Cutting process achieves tight accuracies down to ±0.05 mm on thin-gauge materials (0.05–2 mm). We recommend leveraging our complimentary DFM review to validate the optimal tolerance for your unique design and material combination.

For the most precise and efficient quoting, we prefer 2D cutting path files in DXF/DWG format and 3D files in STEP, IGES, or SLDPRT for full DFM (Design for Manufacturing) analysis. Using these formats allows us to deliver a detailed quote and technical feedback in record time. If you only have a rough concept, we also accept written specifications and can assist with design and drafting.