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Article http://dx.doi.org/10.26855/ea.2023.12.012

4KW Laser Tube Cutting in Metal Fabrication—TP7535M Fiber Laser Tube Cutting System

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Shang Hu

Wuhan Optics Valley Vocational College, Wuhan, Hubei, China.

*Corresponding author: Shang Hu

Published: January 23,2024

Abstract

Laser cutting is a popular processing method for metal cutting, especially in the field of pipe cutting. The main applied powers include 4KW and 6KW, and the laser used is mainly a continuous laser of optical fibers. We will analyze the structure and cutting principle based on this, and simulate the optimal path cutting of FSCUT. The system mainly uses FSCUT TUBES T software. In the processing process, the relevant cutting power and corresponding air pressure are first adjusted, and the cutting pattern is edited on the software. Then, in the actual production line, the material is added by bundling and loading, and the smooth cutting is completed. The cut workpiece is smooth, flat, and highly efficient, making it very suitable for metal processing operations in sheet metal and related industries. This equipment application is very suitable for most processing and small and medium-sized enterprises. We have obtained this report based on processing and enterprise research.

References

[1] Hgtech Laser Cutting Theory. Wuhan Hgtech Laser- Fiber Laser 2019, Pages:1-2.

[2] Tubes T Modeling—Tubepro Laser, 2020 Pages: 2-5. 

[3] Cypcut Laser Software. Shanghai Fscut Company Cypcut.

[4] Hgtech Guidance for the TP Series Products. Hgtech Laser 2020.

[5] Fence Positions and Their Locate—Dept of Laser of Farley Lab. Farley Lab 2021, Pages 2-4, From Ground and Fence Graph and Design by Farley. 

[6] Power Supply and Use Guidance from Farley Contour Laser Pipe. Farley Lab 2019, Pages:10-18. 

[7] Zoom Lion Reference and Their Report, 2021.

How to cite this paper

4KW Laser Tube Cutting in Metal Fabrication—TP7535M Fiber Laser Tube Cutting System

How to cite this paper: Shang Hu. (2023). 4KW Laser Tube Cutting in Metal Fabrication—TP7535M Fiber Laser Tube Cutting System. Engineering Advances3(6), 505-509.

DOI: http://dx.doi.org/10.26855/ea.2023.12.012