Laser Cutting Service
Get clean edges, tight features, and consistent results. KaiSpeed uses fiber and CO₂ laser systems to turn flat patterns into production-ready parts—from quick prototypes to scaled production. We combine fast quoting, engineer-led DFM, and downstream bending, hardware insertion, welding, finishing, and assembly for true one-stop delivery.
All uploads are secure and confidential
What is Laser Cutting?
A focused laser beam is directed through optics to melt or vaporize material along a programmed path while assist gas (nitrogen/oxygen/air) clears the kerf. The process produces narrow kerfs, smooth edges, and intricate features ideal for sheet-metal profiles.
Types of Laser Cutters We Use
Our laser cell handles a wide range of metals (and select non-metals) with high precision and throughput. We match the source to your material, thickness, and edge-quality needs.
CO₂ Laser Cutting
Versatile and clean on many non-metals, while also supporting selected metal jobs.
Best for: Acrylic, wood, rubber, laminates; light-gauge steels and aluminum in certain cases
Why choose it: Superb edge quality on organics; ideal for panels that need clear, polished edges (e.g., acrylic windows)
Typical use cases: Nameplates, covers, gaskets, display windows, light metal panels
Fiber Laser Cutting
Delivers excellent beam quality, high energy efficiency, and fast cycle times—especially on reflective metals.
Best for: Stainless steel, aluminum, brass, copper, titanium
Why choose it: Tight features, narrow kerf, bright edges with nitrogen assist; great from prototyping to production
Typical use cases: Enclosures, brackets, chassis, busbars, RF/EMI shields
Nd:YAG Laser Cutting
Pulsed solid-state capability for niche requirements where high peak power or specific absorption behavior is advantageous.
Best for: Specialty alloys, precision features, selected thick/hard materials and micro-cut details
Why choose it: Stable, precise energy delivery for demanding geometries or localized features
Typical use cases: Precision slots/holes, micro-features, specialty industrial parts
Why KaiSpeed
Precision & edge quality: Narrow kerf enables small slots, tight radii, and crisp internal corners.
Speed to part: Quick nesting and minimal setup—great for prototypes and bridge builds; stable for production.
Metal breadth: Stainless steel, carbon steel, aluminum, brass, copper, and titanium (others on request).
Integrated delivery: Cutting + bending + welding + finishing, delivered assembled if needed.
Transparent DFM: Clear manufacturability notes to reduce cost, lead time, and rework.
24/7 Support • Fast Global Delivery • Secure NDA Protection
How to Work With Us
01. Upload Your CAD
Choose your process (CNC, sheet metal, injection molding, 3D printing, etc.) and upload your files.
NDA-backed confidentiality
Secure transfer (STEP/IGES/ PDF)
02. Get Quote & DFM
Select material, finish, and quantity. Receive a clear quote plus DFM feedback to optimize cost, lead time, and quality.
Typical within 24 hours
Alternative process/ material options when helpful
03. We Start Production
Once approved, we begin manufacturing to your drawing and GD&T requirements.
In-process QC and FAI on request
Photo updates and milestone reports
04. Receive Your Parts
After final inspection, we pack and ship to your door.
Dimensional/CMM reports available
Global shipping (NA/EU often 3–10 days)
Materials & Surface Finish
Materials
We provide a wide range of materials, including metals, plastics, and composites.
Surface Finishes
We offer superior surface finishes that enhance part durability and aesthetics for applications requiring smooth or textured surfaces.
FAQs
A focused beam (fiber or CO₂) follows a programmed path; the material melts/vaporizes while assist gas (N₂/O₂/air) ejects the kerf. The result is narrow kerf, smooth edges, and tight features suitable for 2D profiles and fine details.
Typical profile tolerance is ±0.1–0.2 mm on thin sheet. Tighter specs may be achievable after DFM review, appropriate fixturing, and process qualification. Feature size, alloy, thickness, and assist gas all influence results.
Yes. We offer laser engraving/marking for text, logos, serial numbers, and QR codes across many metals (and select non-metals). We’ll recommend contrast vs. depth settings based on your finish and traceability needs.
Laser: high precision, small kerf, clean edges; excellent for intricate sheet-metal profiles.
Plasma: economical for thicker carbon steel but with rougher edges and larger kerf; often needs secondary finishing.
For heat-sensitive or very thick materials, waterjet may be a better alternative (no HAZ).
Pricing is driven by:
Material & thickness (cut speed, required power)
Part complexity & size (path length, pierces, fine features)
Quantity (nesting efficiency, setup amortization)
Finishing & secondary ops (deburr, anodize, powder coat, hardware, welding)
Upload CAD on Get a Quote or email [email protected] for a line-item breakdown and schedule.
Yes—standard deburr/chamfer is available. For cosmetic faces, we can add bead-blast, brushing, anodizing, powder coat, plating, passivation, silk-screen, and laser marking.
Cycle time depends on part complexity, material/thickness, quantity, and finishing. Simple parts can ship in a few business days after DFM approval; assemblies/coatings add time. We’ll confirm lead time with your quote.