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Laser Cutting Workstations

Automatic Screen Glass Chamfer Laser Processing System AGC20
Suzhou Delphi Laser Co Ltd
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Automatic Screen Glass Chamfer Laser Processing System AGC20
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This equipment is mainly used for chamfering of Screen glasses. It is equipped with an automatic image positioning system, automated axes and AOI, which can provide assurance for automatic high-speed cutting and high-quality stable operation of the products.  

Specifications
Platform Type: Laser Robot Cell
Materials: Glass
Laser Type: Unspecified
Max Laser Output Power: -- W
Processing Length (X): 400 mm
Data Sheet
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Automatic Screen Glass Chamfer Laser Processing System AGC10
Suzhou Delphi Laser Co Ltd
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Automatic Screen Glass Chamfer Laser Processing System AGC10
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This equipment is mainly used for chamfering of Screen glasses. It is equipped with an automatic image positioning system, automated axes and AOI, which can provide assurance for automatic high-speed cutting and high-quality stable operation of the products.  

Specifications
Platform Type: Laser Robot Cell
Materials: Glass
Laser Type: CO2 Laser
Max Laser Output Power: -- W
Processing Length (X): 400 mm
Data Sheet
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Automatic Polarizer Laser Cutting System CLPC65
Suzhou Delphi Laser Co Ltd
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Automatic Polarizer Laser Cutting System CLPC65
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This equipment is mainly used for polarizer processing of screen glasses. The equipment is equipped with an automatic image positioning system, automated axes, and AOI, which provides guarantees for automatic high-speed cutting and high-quality stable operation of the product.  

Specifications
Platform Type: Other
Materials: Glass
Laser Type: CO2 Laser
Max Laser Output Power: -- W
Processing Length (X): -- mm
Data Sheet
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Frequently Asked Questions

There are several benefits of laser cutting workstations. A few of them are the following: Production of high-quality, dimensionally accurate results, large cutting depth.

Laser cutting workstations are typically used in industrial applications where processing of high volumes and/or large-scale parts is required.

Here are some industries where laser cutting workstations can be utilized: Metallurgy, Automotive, Electronic and semiconductors, Biomedicine, Household appliances manufacturing & processing tools, IT equipment manufacturing, Jewelry, Gear manufacturing.

Laser cutting workstations are usually capable of cutting a wide range of materials including metals, glasses, wood, leather, textile, etc.

Yes, certain laser cutting workstations can be used for several purposes, such as texturing, cutting, drilling, welding, marking.

The choice of the laser type depends on a specific application requirement. Here are a few common lasers and their wavelengths used in laser cutting workstations: Excimer (193 nm, 248 nm), Diode-pumped solid-state (DPSS) (1064 nm, 532 nm, 355 nm, 266 nm), CO2 (10.6 μm, 9.4 μm), Fiber (1070nm, 1064nm), Femtosecond (1550 nm, 1070nm, 1064 nm, 532 nm), Picosecond (1070nm, 1064 nm, 532 nm, 355 nm).

Laser cutting generally produces fumes containing elements and particles that can be toxic for the human health.

There are 3 different Laser Cutting Workstations from suppliers and manufacturers listed in this category. In just a few clicks you can compare different Laser Cutting Workstations with each other and get an accurate quote based on your needs and specifications. Please note that the prices of Laser Cutting Workstations vary significantly for different products based on various factors including technical parameters, features, brand name, etc. Please contact suppliers directly to inquire about the details and accurate pricing information for any product model. Simply navigate to the product page of interest and use the orange button to directly reach out to the respective supplier with one click.

Did You know?

Laser cutting workstations are typically used in industrial applications where processing of large-scale parts is required. One can find these cutters integrated with gantry motion controlled systems, robotic cells with automated part feeding or pick and place, conveyors and other arrangements. Although some sources refer to laser cutters as 3D laser printers, we will reserve the concepts of 3D printing or 3D laser printing for additive manufacturing processes. In contrast, laser cutting is a subtractive process and is used for processing of a wide range of materials, such as metals, alloys, plastics, granite, concrete, wood, paper, etc. Deciding what process is better suited for a specific application, additive or subtractive, can be tricky. Generally, the material may limit your choice to a laser cutter if you are dealing with wood, paper, textile, etc. Requirements for higher precision and lower cost may also drive one to selecting a laser cutter as opposed to a 3D printer.
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1 - 6 Advantages of Laser Cutters