What are the limitations of an H-shaped steel laser cutting machine?

H-Shaped Steel Laser Cutting Machine is a high-performance cutting equipment that is widely used in the metal material processing industry. It is a machine that uses a laser beam to cut materials such as stainless steel, carbon steel, aluminum, and copper at high speed and high precision.

Many customers choose H-shaped steel laser cutting machines because of their excellent cutting performance and high efficiency. However, it also has some limitations that need to be considered before making a purchase decision.

Here are some common problems that customers may want to know:

1. What thickness of material can an H-Shaped Steel Laser Cutting Machine cut?

Answer: The cutting thickness mainly depends on the power of the laser generator. Generally speaking, the cutting thickness of a 1.5KW laser generator is 12mm for carbon steel, 6mm for stainless steel and 4mm for aluminum.

2. Is it suitable for cutting irregular-shaped materials?

Answer: H-shaped steel laser cutting machines are generally used for cutting straight materials. If you want to cut irregular-shaped materials, you may need to use other equipment like a plasma cutting machine or waterjet cutting machine.

3. Can it cut non-metal materials?

Answer: H-shaped steel laser cutting machines are specifically designed for cutting metal materials. If you need to cut non-metal materials, you should choose a laser cutting machine that is specially designed for this purpose.

In conclusion, H-Shaped Steel Laser Cutting Machine is an ideal choice for metal material processing, but it also has some limitations. Customers should choose the appropriate cutting equipment based on their specific processing requirements.

Shenyang Huawei Laser Equipment Manufacturing Co., Ltd. is a professional laser cutting equipment manufacturer. We provide customers with high-quality laser cutting machines and excellent after-sales service. If you have any questions or needs regarding H-shaped steel laser cutting machines, please feel free to contact us at HuaWeiLaser2017@163.com.

Research papers:

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4. Kim, H. J., Sugiyama, H., & Katayama, S. (2020). Improvement of cutting speed in laser cutting of ultra-thick steel plates using multiple laser beams. Journal of Laser Micro/Nanoengineering, 15(1), 3-9.

5. Wei, M., Zhang, S., & Chen, K. (2017). Formation mechanism of striation pattern in laser cutting of aluminum alloy. Optics & Laser Technology, 87, 15-19.

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7. Song, Y., Li, X., & Wang, Y. (2019). Microstructure and mechanical properties of dissimilar Al/Steel joints prepared by laser cutting and solid-state welding. Materials Science and Engineering: A, 742, 687-694.

8. Hu, Y., Wan, Y., & Yan, J. (2016). Study on the CO2 laser cutting technology of thin titanium plate and its quality analysis. Applied Mechanics and Materials, 843, 25-29.

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