Laser Cutting

You can start the manufacturing of your metal laser cutting and sheet metal fabrication demands with a consistent tolerance range by creating cost efficiency within 48 hours through

  • doneInstant Quote

  • doneManufacturability Analysis

  • doneAlways Available Capacity

  • doneOnline Order Tracking

  • done Quality Guarantee for Each Piece

  • doneHigh Precision Cutting

Get your price quote and go into production today.

Laser Cutting Services


The most significant factor affecting the classification of laser cutting machines is the type of laser beam source. The CO2 laser cutter uses carbon dioxide as the active laser medium. CO2 laser cutting, which can operate with different principles on different axes, offers a high power output capacity and efficiency; thus it is the traditional laser cutting technique widely used in several manufacturing industries. It is the ideal method for cutting fine features and narrow angles in metals with a thickness greater than 10mm.


Fiber laser technology is a laser cutting technique that uses a solid beam source instead of a liquid or gas source. A series of diodes are used to generate the beam that is transferred through a fiber cable. It allows getting quicker and more accurate cuts compared to CO2 laser cutting, particularly for products with a thickness of less than 5 mm.

What is Laser Cutting?

Laser cutting technology is a manufacturing method where the laser beam emanating from a source generating a high-power beam is directed between the axes to cut and form the metal material. While the laser emanates from the nozzle, where it is condensed, it is also fed with gases that facilitate or protect the manufacturing. While oxygen is used to facilitate cutting, nitrogen is used to prevent corrosion in the material. The performance of the pieces processed by laser cutting technology depends on several parameters such as resonator light source, the diameter of the feed fiber, protective gas type, and wavelength emission. This sheet metal fabrication method offers precise tolerance performance for a low cost.

Industrial laser cutting machines are the most commonly used technology for cutting profile and pipe materials as well as flat metal sheets. Laser cutting is the cheapest manufacturing method among sheet metal fabrication technologies. Products manufactured using laser cutting technology have coarser tolerances compared to CNC processing technology. Nevertheless, it is a highly precise technology, especially when cutting complex geometries and small holes.


Stainless Steel: It is a very good alternative to normal steel for places where rust is not desired. It is perfect for a place where there is a risk of high temperature, salt corrosion, and material abrasion.

Finishing Processes: Sandblasting, Satin Finishing, Electrostatic Powder Coating, Oven Coating

Thickness: 0.5-1 (0.1) / 1-12 (1mm)

Steel: It is the most widely used material. Its price performance is very good.

Finishing Processes: Sandblasting, Satin Finishing, Electrostatic Powder Coating, Oven Coating

Thickness: 0.1-1 (0.1) / 1-12 (1mm)

Aluminum: It is a lightweight and corrosion-resistant metal. It is used widely.

Finishing Processes: Sandblasting, Satin Finishing, Electrostatic Powder Coating, Oven Coating

Thickness: 0.1-1 (0.1) / 1.2-1.5-2-2.5-3-4-5-6-8

Thickness RangeTolerance
Aluminum: 1 - 6 mmAluminum: ±0.2 mm
Steel: 0.8 - 20 mmSteel: ±0.1 mm
Stainless Steel: 0.5 - 16 mmStainless Steel: ±0.1 mm
Finishing Options


Different coating options are available for different materials. For example chromium plating, nickel plating, zinc plating, etc.

Laser Engraving

It is the process of leaving texts, logos, or marks on any product or material using a laser.

Heat Treatment

The metals are annealed or tempered at certain temperatures to get the desired hardness or density.

Advantages of Laser Cutting
  • Laser cutting technology offers clean cutting by reducing deterioration and contamination of the metal. Aluminum, steel or stainless steel materials are used in this sheet metal fabrication technique. Thus, you can manufacture sheet metals with various strengths, weights, conductivity or corrosion resistance.

  • Depending on your needs, you can get your ready-to-use workpieces manufactured with consistent tolerances. Although there is no need for additional processes most of the time, laser engraving, coating or heat treatment processes can be carried out depending on your need. You can get certain services for your metal design parts such as precision cutting, engraving and hole-making.

Platform Model
  • Pricing

    With its rule and machine learning-based software, Tridi performs the most accurate pricing for the models you want to manufacture.

  • Fragmented Manufacturing Demand

    You may need to get services for more than one technology or material in the same project. With, you can solve your entire manufacturing process through a single platform.

  • Access To Capacity

    Thanks to our wide manufacturing partners network, we always have available capacity for your work. With our order-supplier matching software, we offer the most proper capacity for you at Tridi.

  • Quotation Periods

    With its software infrastructure, prices the models in the most accurate way and calculates the manufacturing times. Quotation processes are shortened from weeks to days, from days to minutes.

Manufacturing Process with Laser Cutting

Our Expert Team Examines the Model


The Feedback and Quotation are Sent


The Order is Matched with Manufacturing Partners Network using the Artificial Intelligence Technology


Manufacturing starts immediately after your approval


Packaging and Shipping are Performed After Quality Control

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