Custom Laser Cutting Services Online
Accurate laser-cut parts for both rapid prototyping and production. Receive a free laser cutting quote with DFM analysis within 1 day. Lead times as short as 3–5 days.
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High Quality
Parts
Our advanced laser cutting machines deliver precision in every project. Our rigorous quality control ensures that your custom metal parts match exact specifications, giving you flawless results for every order.
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Fast Lead
Time
Experience industry-leading turnaround times with our efficient online system and streamlined production processes. We minimize delays, ensuring you receive your laser-cut parts quickly and maintain your competitive edge.
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Engineering
Support
Experience industry-leading turnaround times with our efficient online system and streamlined production processes. We minimize delays, ensuring you receive your laser-cut parts quickly and maintain your competitive edge.
What is Laser Cutting
Laser cutting is a highly accurate and efficient manufacturing method that utilizes a focused laser beam to cut materials into customized shapes and patterns. It’s especially suited for producing intricate components with exceptional precision and smooth edges.
At Fioria, our online laser cutting services are designed to accommodate a wide range of materials, including metals, plastics, and wood—offering flexibility for diverse project needs. Whether you’re producing a single prototype or a full-scale production run, our advanced laser cutting systems ensure consistent, top-quality results for every order.
We simplify the process with our instant online quoting platform, which supports various 3D CAD file formats. Just upload your design to receive a real-time quote and transition quickly from concept to production. Fioria’s laser cutting services combine speed, precision, and convenience to help you complete your projects efficiently and cost-effectively.
Types of Laser Cutters at Fioria
Our laser cutting facility is equipped with state-of-the-art machines designed to process a wide range of materials with exceptional precision and efficiency.
Fiber Laser Cutting
Fioria’s fiber laser cutters deliver outstanding precision and require minimal setup, making them ideal for processing reflective metals. These machines combine high energy efficiency with rapid cutting speeds, making them perfectly suited for both large-scale production and custom metal laser cutting tasks.
CO2 Laser Cutting
Our CO₂ laser cutters efficiently handle a diverse range of materials such as metals, plastics, and woods. Utilizing a finely focused laser beam, CO₂ technology delivers clean, precise cuts and detailed features, ensuring high-quality results for your laser-cut components.
Nd:Yag Laser Cutting
Nd:YAG laser cutters are known for their high power and ability to cut through thick, hard materials. At Fioria, we use Nd:YAG lasers for applications that require deep cutting and exceptional precision, making them ideal for intricate industrial tasks and complex design requirements.
Laser Cutting Materials
Metals
Metals like aluminum, stainless steel, and brass offer outstanding durability, strength, and corrosion resistance, making them well-suited for structural uses as well as intricate, visually appealing components.
Plastics
Plastics such as acrylic and polycarbonate are valued for their light weight, impact resistance, and transparency. These versatile materials are suitable for various uses, ranging from industrial parts to attractive decorative products.
Woods
Wood types like pine, oak, and maple are selected for their natural grain, ease of work, and durability. Each species offers a distinct appearance and can serve both structural functions and detailed decorative applications.
Fioria Laser Cutting Capabilities
Our custom laser cutting services adhere to international industry standards and current market trends to deliver high-quality laser-cut parts to our customers.
| Description | |
|---|---|
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Maximum Part Size |
10 mm (0.40 in.) |
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Minimum Part Size |
2X material thickness with a minimum of 1 mm (0.04 in.)
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Distance Dimensions
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Our laser cutting standards depend on ISO 2768-c. Typical size: +/- 0.2 mm (0.008 in.) for length, width, diameter and location. |
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Maximum Material Thickness |
Carbon steel < 25 mm (0.98 in.), Stainless steel < 15 mm (0.59 in.), Aluminum < 15 mm (0.59 in.) , Copper < 12.7 mm (0.5 in.) |
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Kerf (slit size) |
About 0.5 mm (0.02 in.) |
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Edge Condition
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Laser cut edges have matte and vertical lines.
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Laser Sources
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CO2 and fiber lasers. Up to 10 kW.
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Reapability
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+/- 0.05 mm (0.002 in.)
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Positioning Accuracy
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+/- 0.10 mm (0.004 in.)
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Lead Time
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5-7 days
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Laser Cutting Shop
Experience the precision of the Fioria laser cutting shop, where advanced technology meets expert craftsmanship. Our facility is equipped with seven state-of-the-art laser cutters, each with a 3000×1500 capacity and capable of cutting plates up to 30mm thick with ±0.01mm accuracy. This enables us to handle a wide range of materials—including metals, plastics, and wood—while delivering exceptional quality for every project.
Get an inside look at our operations by watching our video tour. See how our laser cutting services combine accuracy and efficiency to bring your custom projects to life, reflecting our commitment to excellence.
Advantages
Advantages of Laser Cutting
Laser cutting technology offers a range of powerful advantages that benefit diverse manufacturing applications:
Precision and Accuracy: Delivers outstanding cutting precision and consistency, making it ideal for intricate designs and complex patterns. This high level of accuracy minimizes material waste and enhances overall production efficiency.
Versatility: Suitable for cutting a wide variety of materials—including metals, plastics, and wood—laser cutting adapts easily to different industry requirements. It handles varying material thicknesses and complexities without the need for tool changes.
Speed: As one of the fastest cutting methods available, laser cutting significantly shortens production times. It’s well-suited for both high-volume production and rapid prototyping, enabling quicker project turnaround.
Clean Cuts and Smooth Finishes: Produces sharp, clean edges that often require little to no additional finishing. This reduces post-processing work and enhances the final product’s visual and functional quality.
Minimal Contamination: Being a non-contact process, laser cutting reduces the risk of material contamination—an essential advantage for industries like electronics and medical devices where cleanliness is critical.
Energy Efficiency: Modern laser cutting systems are built for energy efficiency, lowering operational costs and supporting sustainable manufacturing practices.
Applications
Applications of Laser Cutting
Laser cutting technology is widely utilized to manufacture a broad range of parts, each taking advantage of the method’s precision and adaptability:
Structural Components: Critical in machinery and construction, laser cutting delivers the precision needed for structural elements like beams, frames, and supports, ensuring accurate fits within complex assemblies.
Decorative Elements: Perfect for crafting intricate designs, laser cutting is commonly used to produce decorative items such as detailed metal panels and artistic pieces. Its precision makes it a go-to solution in interior design, architecture, and art installations.
Functional Parts: Ideal for creating functional components like gears, brackets, and enclosures, laser cutting ensures tight tolerances and smooth integration within mechanical systems. It’s widely adopted in industries such as automotive and machinery manufacturing.
Prototypes: Designers and engineers rely on laser cutting for rapid prototyping, enabling quick iterations and precise modifications. This accelerates product development across various sectors by allowing fast, accurate adjustments.
Electronic Components: Laser cutting is essential for producing intricate parts for electronics, including circuit boards and insulation layers. Its ability to precisely cut complex shapes without harming delicate materials is key to supporting miniaturization and performance in electronic devices.
FAQs
Our laser cutting service is engineered for high precision, delivering cutting accuracy of ±0.002 inches and positional accuracy of ±0.004 inches. This exceptional precision guarantees that each part we produce aligns perfectly with your specifications, ensuring superior quality in the final product. Whether you’re dealing with intricate designs or need exact part replication, our advanced laser cutting technology offers the accuracy required for complex, detail-oriented projects—making it an excellent fit for industries that demand the highest level of precision.
Our laser cutting capabilities are tailored to accommodate various materials and thicknesses, allowing us to meet a wide range of project requirements. For stainless steel and aluminum, we can accurately cut materials up to 15 mm thick, ensuring both strength and precision. When working with carbon steel, our advanced equipment handles sheets up to 25 mm thick, making it ideal for heavy-duty applications. For copper, we offer precise cutting for thicknesses up to 12.7 mm, perfect for intricate and detailed designs. This versatility enables us to deliver high-quality results across diverse materials with consistent accuracy.
Yes, we provide both laser engraving and etching services. Backed by extensive experience and technical expertise, our team delivers high-quality results tailored to your specific needs. Whether you require detailed graphics, sharp text, or complex patterns, our engraving and etching capabilities offer high-resolution finishes on a wide range of materials. Each project is executed with meticulous precision, ensuring durable and visually striking results—ideal for both decorative enhancements and functional markings.
Yes, in addition to laser cutting, our facility offers a range of material bending techniques to shape your flat pattern profiles into the desired forms. We provide methods such as V-bending, roll bending, rotary bending, and wipe bending, each suited to different project requirements. The appropriate bending technique is selected based on the specific needs of your design, ensuring optimal form and function. This versatility allows us to support a wide variety of applications while delivering precise and reliable results that align with your project goals.
The time needed for laser cutting varies based on several factors, including the design’s complexity, the material type, and its thickness. Typically, simpler designs on thinner materials can be completed quickly, often within a few hours. More intricate designs or cutting thicker materials may require additional time. We are committed to optimizing our processes to deliver efficient turnaround times without sacrificing quality. For an accurate estimate tailored to your project, please contact us directly so we can provide a detailed timeline based on your specific requirements.
Laser cutting and plasma cutting are both widely used methods for material cutting, but they differ considerably in process, precision, and suitable applications.
Laser cutting employs a concentrated beam of light, typically generated by a CO2 or fiber laser, to melt, burn, or vaporize the material. This technique offers exceptional precision, enabling intricate cuts and fine details with a smooth, high-quality edge finish. It is well-suited for metals, plastics, wood, and various other materials, particularly when accuracy is essential.
In contrast, plasma cutting uses a high-temperature jet of ionized gas to melt and cut through electrically conductive materials. Plasma cutting is generally faster than laser cutting when working with thicker metal sheets, but it provides less precision. The resulting edges tend to be rougher and often require additional finishing.
Laser cutting is a highly precise manufacturing technique that utilizes a high-powered laser beam to cut materials into customized shapes and designs. The laser beam is focused through a lens onto the surface of the material, where it melts, burns, or vaporizes the material along a programmed path. This method enables intricate cuts, tight tolerances, and superior edge quality, making it ideal for a wide range of materials, including metals, plastics, wood, and more.
The cost of laser cutting is influenced by several factors, including:
Material Type and Thickness: Different materials require varying cutting speeds and laser power, which impact the price.
Part Complexity and Size: More intricate designs with multiple cuts or larger parts take longer to process, affecting the overall cost.
Quantity: Larger orders often benefit from economies of scale, lowering the cost per part.
Additional Services: Finishing processes such as deburring, anodizing, or powder coating will increase the final price.
Fioria provides an instant online quoting system for laser cutting. Simply upload your design file to get a real-time quote tailored to your specific needs. For personalized support and a detailed cost breakdown, feel free to contact our team.