Laser Cutting Service
Quick Response
within 4 Hours
Precision Cutting
±0.02mm
Material Compatibility
30+
Custom Solutions
Prototyping to Batch Production
What is Laser Cutting?
Laser cutting is an advanced, non-contact fabrication technology that uses a highly focused laser beam to precisely cut, pierce, or engrave materials. High-pressure assist gases remove molten or vaporized material, ensuring clean and burr-free edges.
Unlike traditional mechanical cutting methods such as shearing or stamping, laser cutting enables highly intricate geometries, micro-holes, and sharp corners with tight tolerances, often down to ±0.02mm.
Its precision and flexibility make it ideal for a wide range of metals including stainless steel, aluminum, brass, and titanium, as well as select non-metal materials. By minimizing heat-affected zones and material distortion, laser cutting maintains structural integrity, reduces post-processing, accelerates production cycles, and lowers overall manufacturing costs.
At Beska, we turn complex designs into precise, high-quality parts using advanced laser cutting technology and expert craftsmanship. From prototypes to large-scale production, we make precision and efficiency our standard.
Types of Laser Cutting
At Beska, we provide a range of laser cutting technologies, each suited to different materials, precision requirements, and production needs. Selecting the right method for your project can improve efficiency, reduce post-processing, and ensure the highest quality results.
Fiber Laser Cutting
It uses a high-energy fiber laser, ideal for metals such as carbon steel, stainless steel, and aluminum. Fiber lasers combine fast cutting speeds with high energy efficiency and low maintenance, making them well-suited for thin sheets, medium-thick plates, and high-volume production.
COâ‚‚ Laser Cutting
It employs a longer wavelength laser, perfect for non-metal materials such as acrylic, wood, and fabric, as well as certain metals. COâ‚‚ lasers provide smooth edges and consistent quality, making them versatile for mixed-material projects.
Solid-State Laser Cutting
It utilizes crystal-based lasers, such as Nd:YAG, for exceptional precision. This method is ideal for micro parts, medical devices, and electronics where extremely fine details are required. While slower and more costly, solid-state lasers excel in high-precision, high-value applications.
Supported Materials for Laser Cutting
We focus on high-precision metal laser cutting and support a wide range of industrial-grade materials. The table below summarizes the metals we work with, along with thickness capabilities, properties, and typical applications.
| Material Category | Common Grades | Thickness Range | Typical Applications | Notes |
| Carbon Steel | SPCC, Q235, Q345 | 0.5–30 mm | Structural parts, brackets, machine components | Stable cutting performance, excellent edge quality |
| Stainless Steel | 304, 316, 430 | 0.5–25 mm | Enclosures, panels, food/medical equipment | Clean edges with nitrogen cutting |
| Aluminum Alloy | 5052, 6061, 6063 | 0.5–20 mm | Lightweight parts, electronic housings, automotive components | Sensitive to heat → optimized parameters minimize distortion |
| Brass & Copper | H59, C1100 | 0.5–12 mm | Electrical components, decorative parts | Requires high-power laser and stable gas flow |
| Titanium & Alloys | TA1, TA2, TC4 | 0.5–10 mm | Aerospace, medical components | High strength-to-weight, clean processing with inert gas |
| Galvanized Steel | GI, GL | 0.5–20 mm | Cabinets, ducting, industrial panels | Controlled heat input to avoid zinc vapor issues |
| Other Metals | Manganese steel, alloy steel | Based on grade | High-strength machinery parts | Case-by-case review recommended |
If cost is a concern and your part doesn’t require a polished edge, mild steel with nitrogen cutting is usually the most economical option while still providing stable accuracy.
Advantages of Laser Cutting
Laser cutting offers several practical advantages that help improve precision, efficiency, and overall manufacturing quality.
- High precision and smooth edges: Laser cutting consistently achieves around ±0.02 mm tolerance, producing straight, clean, and burr-free edges that reduce the need for secondary finishing.
- Fast production and shorter lead time: The cutting speed is typically three to five times faster than traditional methods, allowing projects to move from drawing to finished parts without the delay of mold preparation.
- Flexible and highly customizable: The digital cutting path makes it easy to produce simple, complex, or highly detailed shapes, supporting both prototype orders and large-volume production with the same level of accuracy.
- Better material utilization: The narrow kerf width allows parts to be nested more tightly, improving material usage by 10% to 20% and reducing overall waste.
These advantages make laser cutting an efficient choice for teams that need precise parts, predictable quality, and a scalable process from prototype to full production.
Industries We Support with Laser Cutting
Laser cutting plays a key role in industries that require clean edges, tight tolerances, and reliable repeatability across different production volumes.
- Automotive: Laser cutting helps create precision brackets, battery components, and lightweight structural parts that must maintain consistent tolerances.
- Industrial Machinery: It is widely used for frames, mounting plates, and protective covers where both durability and dimensional accuracy matter.
- Appliances: The process produces clean, uniform enclosures, ventilation panels, and stainless steel housings that support both performance and appearance.
- Electronics: Laser cutting enables the fabrication of compact casings, shielding plates, and functional brackets that require stable, repeatable accuracy.
These applications highlight how laser cutting supports industries that need dependable accuracy without slowing down production.
FAQ
Our laser cutting machines handle up to 30 mm for carbon steel, 25 mm for stainless steel, and 20 mm for aluminum, with slight variations based on material grade.
Our standard cutting accuracy is ±0.05 mm positioning and ±0.03 mm repeatability, with a kerf width between 0.1 mm and 0.3 mm.
We offer bending, welding, tapping, chamfering, deburring, surface finishing, and full assembly support based on your project needs.
Yes, we support both one-off prototypes and high-volume production, using the same equipment to maintain consistent accuracy across all quantities.
Most prototype orders are completed within 5-7 days, while production batches depend on complexity, material availability, and finishing requirements.
Most laser-cut metals, including carbon steel, stainless steel, and aluminum, can be welded with good results, as the heat-affected zone is narrow and controllable.
Thin materials may show minor heat distortion, but we control speed and power settings to minimize deformation during cutting.
Yes, we offer engraving for part numbers, logos, and functional markings, depending on material type and thickness.
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