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Steel structure engineering

2025-02-17

Steel structure engineering is primarily a structural engineering discipline that utilizes steel materials, characterized by high strength, lightweight, and excellent seismic performance.

01 Process and Application

Steel structure engineering mainly involves the use of shaped steel and steel plates to manufacture components such as steel beams, steel columns, and steel trusses. Manufacturers need to perform processes like cutting, chamfering, and drilling on steel pipes during production to meet the shape and size requirements of the structures. These components are then assembled through welding or bolting.

Steel structures are widely used in industrial plants, high-rise buildings, bridges, and other fields. They offer fast construction speeds, effectively shortening the construction cycle. Additionally, they are environmentally friendly, allowing for material recycling and reuse, making them a significant part of modern construction.

02. Pain Points in the Steel Structure Industry

1. Quality Control Challenges: Slight deviations in welding, painting, and other processes can affect the overall quality.

2. Construction Difficulties: Construction is challenging due to factors like weather and site conditions, making it hard to ensure installation efficiency and precision.

3. Intense Competition: The industry is highly competitive, with low-price bidding being common, leading to compressed profit margins.

These pain points hinder the healthy and rapid development of the steel structure industry.

03 Solutions

1. Precision Cutting: Ensures accurate cutting of various steel pipes, meeting the complex connection requirements of steel structures.

2. High-Speed Cutting: The high-speed cutting feature significantly improves production efficiency and reduces project costs.

3. Diversified Cutting: Produces smooth cutting surfaces, minimizing the need for additional processing. It can flexibly process steel pipes of different diameters and wall thicknesses, enabling diverse cutting patterns through programming. This drives improvements in manufacturing precision, efficiency, and quality in the steel structure industry.

04 Recommended Equipment

G120K/G170K/G240K Series High-Speed 3D Five-Axis Beveling Laser Tube Cutting Machine Advantages:

1. ±45° bevel cutting, completed in one step.

2. Bevel angle adjustable up to 45°, ensuring stronger welds.

3. Efficient 3D 45° cutting for various small and medium-sized pipes.

G120C-G170C-G240C High-Speed 3D Laser Tube Cutting Machine (Side-Mounted)

Advantages:

1. High speed and efficiency: Acceleration up to 1.6G, 5-6 times faster than conventional machines.

2. Wide cutting range and easy operation: Capable of cutting round, square, oval, and special-shaped pipes. Supports 24-hour operation with a user-friendly, optimized operating system.

3. Small blind zone for tail ends, saving materials and reducing post-processing: Theoretical cutting tail end is around 40mm, significantly reducing material waste.

4. Follow-up cutting: Equipped with an integrated height adjuster for easy handling of deformed pipes.

G170M Drawing-Free Laser Machine Advantages:

1. No need for drawings, saving time and effort.

2. Dual-clamp automatic holding, convenient and labor-saving.

3. Extremely short tail ends, saving materials and costs.

4. Front clamp forward movement, ensuring precision and ease of use.