PRECISION ENCLOSED CNC STEEL LASER CUTTING MACHINE

Samples:

The Relationship Between Laser Cutting and Construction Equipment Manufacturing

In modern construction equipment manufacturing, laser cutting technology plays a crucial role in enhancing precision, efficiency, and innovation. As a high-precision machining method, laser cutting allows manufacturers to produce complex metal components with minimal waste, significantly improving the quality and durability of construction machinery.

One of the key advantages of laser cutting is its ability to process various materials, including steel, aluminum, and alloys, which are widely used in construction equipment. By utilizing computer-controlled laser systems, manufacturers can achieve intricate designs and tight tolerances that are difficult to replicate with traditional cutting methods. This precision ensures that structural parts, such as frames, booms, and hydraulic components, meet stringent safety and performance standards.

Additionally, laser cutting improves production efficiency. Unlike mechanical cutting, which requires frequent tool changes, laser systems can swiftly switch between different cutting tasks without downtime. This flexibility shortens lead times and reduces costs, making it easier for manufacturers to meet the growing demand for advanced construction machinery.

Moreover, laser cutting supports sustainable manufacturing by minimizing material waste. The non-contact cutting process reduces scrap metal, lowering both production expenses and environmental impact. As the construction industry increasingly adopts automated and eco-friendly practices, laser cutting will remain a vital technology in equipment manufacturing.

In conclusion, laser cutting has revolutionized construction equipment manufacturing by enabling high precision, cost efficiency, and sustainability. As technology advances, its integration will continue to drive innovation in the industry. 

FAQ

. What materials can this 6kW laser cutting machine process?

This industrial fiber laser cutter handles:

• Carbon steel (up to 25mm)

• Stainless steel (up to 20mm)

• Aluminum (up to 15mm)

• Brass, copper, and other non-ferrous metals.

2. What’s the maximum cutting speed?

• 90–100 m/min (depending on bed size) with 1.2G–1.5G acceleration for high-efficiency production.

3. How precise is the machine?

• Positioning accuracy: ≤0.03mm

• Repositioning accuracy: ≤0.02mm
  Ideal for aerospace, automotive, and precision engineering.

4. What laser sources are compatible?

Choose from IPG, Raycus, Max, Boci, or BWT lasers (6kW–30kW options available).

5. Is the enclosure safety-certified?

Yes! The fully enclosed design meets CE/ISO safety standards, with protective windows and exhaust systems.

6. What’s the power requirement?

• AC380V/50Hz or 60Hz (3-phase industrial power).

7. Can I cut thick metals with 6kW?

Absolutely! This 6kW fiber laser cuts:

• 20mm carbon steel (clean edges)

• 15mm stainless steel

• 12mm aluminum (with assist gas).