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1000 Watt Laser Cutting Capacity

Fiber Laser Cutting Machine is used for metal material cutting and processing equipment, with high precision, fast cutting speed, not subject to the limitations of the cutting pattern, automatic layout to save materials, smooth cutting, low processing costs and other characteristics, applicable to metal processing and other industries.
Product Model: ST-FC3015/3013/4020/6015/6025/12025
Laser power: 1500W-20KW
Working area: 3000*1500/3000*1300/4000*2000/6000*1500/ 6000*2500/12000*2500mm

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Product Description

Details Product Parameters Samples Video

What Is Laser Cutting?

Laser cutting machine is a kind of equipment that utilizes laser technology to cut materials. It cuts materials accurately and quickly by means of a laser beam with high energy density, and is widely used in many fields such as metal processing, sheet metal manufacturing, machining, advertising signs, electronic components, and so on.

Working Principle

The working principle of a laser cutting machine includes the following key steps:

Laser generation:

Laser cutting machines usually use lasers as the light source, and common types of lasers include CO2 lasers, fiber lasers, Nd:YAG lasers, and so on.

The laser beam generated by the laser is highly directional and monochromatic, and can be focused into a very fine laser beam.

Beam Transmission:

The generated laser beam is transmitted through components such as mirrors, fibers or lenses until it reaches the cutting head.

In a fiber laser system, the beam is transmitted directly through the fiber, which is relatively simple and efficient.

Focusing:

The focusing mirror inside the cutting head focuses the laser beam into a small spot, increasing the energy density of the laser.

The focused laser beam generates extremely high temperatures on the surface of the material to be cut.

Cutting Process:

When the laser beam strikes the surface of the material, the heat causes the material to melt and evaporate rapidly. The cutting speed of the laser is closely related to the laser power, material properties, cutting thickness and other factors.

During the cutting process, an auxiliary gas (such as oxygen, nitrogen, or air) is often used to help remove molten metal and improve cut quality.

Control System:

The laser cutting machine is equipped with a computerized control system, which can precisely control the cutting path, speed and power, and adjust the parameters according to different materials and cutting requirements to achieve complex cutting shapes and patterns.

Laser cutting machine has become an indispensable and important tool in modern manufacturing industry due to its high efficiency, high precision and wide applicability.

Product Technical Features

(1) Fiber laser electric-optical conversion efficiency is high, the conversion efficiency of more than 30%, small power fiber laser does not need to be equipped with a chiller, the use of air-cooled, which can significantly save power consumption at work, save operating costs, to achieve the highest production efficiency;

(2) The laser requires only electrical energy to operate, and does not require additional gas to produce laser light, which has the lowest operation and maintenance costs;

(3) Fiber lasers are designed with semiconductor modularity and redundancy, with no optics in the resonant cavity and no start-up time, providing the advantages of no regulation, no maintenance, and high stability, reducing the cost of parts and the time spent on maintenance, which is unmatched by conventional lasers;

(4) The output wavelength of the fiber laser is 1.064 microns, which is 1/10 of the wavelength of CO2, and the output beam quality is good and the power density is high, which is very conducive to the absorption of the metal material, and it has excellent cutting and welding ability, thus minimizing the cost of processing;

(5) The whole optical path is transmitted by fiber optics, no need for complex light guiding system such as reflector, simple optical path, stable structure, and maintenance-free external optical path;

(6) The cutting head contains protective lenses, which minimizes the consumption of valuable consumables such as focusing mirrors;

(7) Light is exported through optical fibers, making the design of mechanical systems very simple and very easy to integrate with robots or multi-dimensional workbenches;

(8) The laser plus the optical gate can be a multi-machine, through the fiber optic light splitting, divided into multiple multiple simultaneous work, easy to expand the function, easy and simple to upgrade;

(9) Fiber laser is small in size, light in weight, the working position can be moved, small footprint.

Product Details

1000 Watt Laser Cutting Capacity details-Suntop

1. Machine frame, our machine tool is used integrated welding after annealing to eliminate stress, the process of cutting welding stress relief annealing—roughing—VSR—semi-finished-VSR-Finishing, a better solution due to welding and the stress arising from the processing, which greatly improve the stability of the machine, the common thickness range of structure metal profiles from 12-15mm which at least 20 years no deformation.

1000 Watt Laser Cutting Capacity tool-Suntop

2. The mechanical transmission part has been tested and calibrated with laser interferometer for many times to ensure the our machine good and stable accuracy even after a few years of use, which is VERY important for end users.

1000 Watt Laser Cutting Capacity beam-Suntop

3. Configure with HIWIN linear rail for all axis, to ensure durable and high precision for long time processing.

4. XY axis configure with high accuracy grinding type and rack, Japan Shimpo reducer, high speed and precision can be ensured, Z axis area are transmitting by high accuracy rolling ball screw.

1000 Watt Laser Cutting Capacity rack-Suntop

5. Adopt France Schneider AC servo system, large power, stronger torque force, working speed is more stable and faster.

6. Adopt professional Swiss Raytools laser cutting head, imported optical lens, focus spot smaller, cutting lines more precise, higher efficiency and better processing quality can ensured. Configure with non-contact auto follow function, ensure the best focal length and cutting effect.

1000 Watt Laser Cutting Capacity cutting head-Suntop

7. Fiber laser transmitting with famous laser Generator, flexible processing, realized high accuracy cutting on every point.

1000 Watt Laser Cutting Capacity laser source-Suntop

8. Professional laser cutting CNC controlling system, connected with computer, simple operation and France Schneider AC servo system, large power, stronger torque force, working speed is more stable and faster.

9. Configure professional industrial HANLI or TEYU chiller with double temperature control molds, high cooling efficiency and high transferring ratio of laser. Japan SMC intelligent gas group, dual gas control, automatic adjustment for gas type and gas software.

10. Compatible with multiple software, can design and graphic and letters as you like, operating simple, flexible and easy.

Advantages of Laser Cutting Machine

1. High cutting accuracy: laser cutting machine positioning accuracy 0.05mm, repeat positioning accuracy 0.03 mm.

2. Narrow cutting slit of laser cutting machine: the width of the kerf is generally 0.10-0.20mm.

3. smooth cutting surface of laser cutting machine: the cutting surface is burr-free and the surface roughness of the kerf is generally controlled to within Ra6.5.

4. Laser cutting machine speed: cutting speed can reach 60m/min.

5. Laser cutting machine cutting quality: no contact cutting, cutting edge by heat is very small, basically no thermal deformation of the workpiece, completely avoid the collapse of the edge formed when the material punching and shearing, cutting seam generally does not require secondary processing.

6. No damage to the workpiece: the laser cutting head does not come into contact with the surface of the material, ensuring no scratching of the workpiece.

7. not affected by the shape of the workpiece: laser processing flexibility, you can process any graphics, you can cut the pipe and other special profiles.

8. Save investment in molds: laser processing does not need molds, no mold consumption, no need to repair molds, save time to replace molds, thus saving processing costs and reducing production costs, especially suitable for processing of large products.

9. Save material: With computer programming, products of different shapes can be cut out to maximize the utilization of materials.

10. Safe and environmental friendly: laser processing has less waste, low noise, clean, safe and pollution-free, which greatly improves the working environment.

Product Specification

Machine model	ST-FC3015/3013/4020/6015/6025/12025
Working area	30001500/30001300/40002000/60001500/ 60002500/120002500mm (support customization)
Laser power	1500W-20KW
Transmission system	Double rack & pinion and servo drive
Maximum speed	60m/min
Positioning accuracy	±0.03mm/1000mm
Repositioning accuracy of clamp	±0.02mm/1000mm
Format	LXD, DXF, PLT, AI, NC etc.
Working environment	0-45℃, Humidity ≤ 80%, non-condensing
Equipment power	8KW (not include laser generator and chiller)
Power supply	Three phase 380V/50Hz or 60Hz
Total weight	3000Kg (ST-FC3015)
Overall size	501022601900mm (ST-FC3015)

Cutting Capacity of Laser Cutting Machine (only for reference)

Power	Carbon steel (mm)		Stainless steel (mm)		Aluminum (mm)		Brass (mm)
	Ultimate thickness	Actual processing thickness	Ultimate thickness	Actual processing thickness	Ultimate thickness	Actual processing thickness	Ultimate thickness	Actual processing thickness
1KW	12	8	6	4	4	2	3	2
2KW	16	10	8	6	6	4	6	4
3KW	22	12	11	8	8	6	8	6（4）
4KW	25	14	12	10	10	8	10	8（5）
6KW	25	16	20	14	16	10	12	10
8KW	40	20	30	18	30	16	16	12
12KW	40	22	40	25	40	20	16	16
15KW	60	25	50	30	50	25	20	18

The table above has listed the tables corresponding to different powers in detail. Each material corresponds to the limit thickness and the actual processing thickness. Generally, the thickness of the cut processed by the factory in batches should be based on the actual processing thickness. This will not only guarantee the laser equipment service life and also ensure that the processed materials have good accuracy. If you encounter too thick a plate, you can also cut it, but it must not exceed the limit thickness. If cutting plates of extreme thickness in batches, after a long time, there will be certain errors in the materials, and the life of the laser will be shortened.

What Materials Can be Cut?

Suitable for stainless steel, carbon steel, alloy steel, silicon steel, spring steel, aluminum, aluminum alloy, galvanized sheet, galvanized sheet, pickled sheet, copper, silver, gold, titanium and other metal sheets and pipes.

1000 Watt Laser Cutting Capacity samples1-Suntop

1000 Watt Laser Cutting Capacity samples2-Suntop

1000 Watt Laser Cutting Capacity samples3-Suntop

1000 Watt Laser Cutting Capacity samples4-Suntop

1000 Watt Laser Cutting Capacity samples5-Suntop

1000 Watt Laser Cutting Capacity samples6-Suntop

1000 Watt Laser Cutting Capacity samples7-Suntop

1000 Watt Laser Cutting Capacity samples8-Suntop

1000 Watt Laser Cutting Capacity samples9-Suntop

1000 Watt Laser Cutting Capacity samples10-Suntop

1000 Watt Laser Cutting Capacity samples11-Suntop

1000 Watt Laser Cutting Capacity samples12-Suntop

What is Laser Cutting Used For?

Fiber laser cutting machines are widely used in many fields due to their high efficiency, precision and wide range of applications. The following are some of the main application areas:

Metal processing

Fiber laser cutting machine is widely used in metal processing industry, especially suitable for cutting all kinds of metal materials, including: stainless steel, carbon steel, aluminum alloy, copper, brass and other non-ferrous metals.

Sheet metal manufacturing

Fiber laser cutting machine is very popular in sheet metal processing, can achieve high efficiency plate cutting, suitable for manufacturing: industrial equipment shell, sheet metal chassis, structural parts and so on.

Automotive manufacturing

In the automotive industry, fiber laser cutting machines are used to cut and process various automotive parts, such as: body frames, parts brackets, bumpers and so on.

Aerospace

In order to meet the high precision and high strength material cutting needs, fiber laser cutting machine is used in the field of aerospace, suitable for: aircraft structural parts, missile and satellite parts, aviation equipment, etc.

Medical equipment

In the medical equipment industry, fiber laser cutting machines are used to manufacture high-precision and complex medical equipment parts, such as: instrument housings, surgical knives, etc.

Construction and decoration

In the construction industry, fiber laser cutting machine can quickly cut out a variety of complex shapes of metal decorative parts, such as: iron railing, metal curtain wall, creative metal devices.

Appliance manufacturing

In the home appliance industry, various metal casings and components are manufactured by fiber laser cutting machines, such as: refrigerator casings, washing machine panels, air conditioner casings, etc.

Advertising and signage

Fiber laser cutting machines are used to make various advertising signs, signboards and display props, which can realize complex fonts and patterns cutting, and are widely used in: commercial advertisements, store signboards, exhibitions and displays.

Crafts and gifts

High-precision fiber laser cutting technology is suitable for the production of exquisite handicrafts and customized gifts, such as: exquisite engraving, cutting artwork, customized souvenirs and so on.

Fiber laser cutting machine is gradually replacing the traditional cutting technology and becoming an indispensable and important equipment in industrial production due to its high precision, good efficiency and flexibility. Click here to contact Suntop Laser today to learn more about laser cutting.

Fiber Laser Cutting Video

How to Choose the Laser Cutting Machine for You?

There are several factors involved in choosing the right laser cutting machine for you, here are some key points to consider and steps to help you make an informed decision:

1. Determine the material to be cut

Material Type: First, identify the type of material you will primarily be cutting (e.g., stainless steel, aluminum, copper, plastic, wood, etc.).

Material Thickness: Different laser cutting machines have different cutting capabilities for different thicknesses of materials and need to be selected based on actual needs.

2. Laser type selection

Fiber laser: suitable for metal cutting, especially thin and thick plates, high efficiency and good cutting quality.

CO₂ laser: suitable for cutting organic materials (such as wood, plastic, paper, etc.), but the cutting ability of metal is general.

YAG laser: suitable for high-precision metal processing, but relatively expensive.

3. Cutting power

Power requirements: the power of the cutting machine directly affects the cutting speed and ability. Usually, the higher the power, the stronger the cutting speed and thickness capability. Choose the right power range to meet your production needs.

4. Cutting accuracy and speed

Determine your requirements for cutting accuracy and production efficiency needs. Different models of laser cutting machines may have significant differences in technical specifications, so pay attention to their cutting accuracy and speed when choosing.

5. Machine size and working range

According to your workspace and production needs to choose the right machine size and cutting range, to ensure that you can meet the actual cutting needs.

6. Software compatibility

Check if the cutting machine is compatible with your existing design software. Many industries use specific software for design, so it is important to ensure seamless connectivity between software.

7. Brand and after-sales service

Choosing a laser cutting machine from a well-known brand usually comes with better quality and customer support. It is also important to understand the manufacturer's after-sales service, maintenance policy and technical support.

8. Cost budget

Make a reasonable budget, including the purchase cost, maintenance cost, and consumables cost. Ensure that the equipment you choose is within your budget and can meet your business needs at the same time.

9. Safety and environmental protection

Check the safety features of the cutting machine and compliance with local environmental regulations. Ensure that the equipment is safe to use and meets emission standards.

10. Test run or demonstration

If possible, arrange a test run or observe a demonstration to confirm whether the performance of the equipment in actual cutting meets your requirements.

By taking the above factors into consideration, you will be in a better position to select the right laser cutting machine to meet your production needs and business objectives. Click here to contact Suntop Laser today for a free laser cutting test.

Why Choose Suntop Laser?

There may be several reasons for choosing Suntop Laser as a brand of laser cutting machine, here are some common benefits and features that may make you consider choosing this brand:

High quality equipment

Advanced technology: Suntop Laser is committed to utilizing the latest in laser technology and innovative designs to provide efficient and accurate cutting solutions.

Durability and Reliability: Its products are often known for their high-quality materials and precision manufacturing processes, ensuring that the models are durable and stable in operation.

Wide range of application scenarios

Diversified material cutting: Suntop Laser's equipment is suitable for cutting a wide range of materials, including metal, wood, plastic, etc., to meet the needs of different industries.

A variety of models to choose from: According to the market demand, Suntop offers a variety of models and specifications, which can provide customers with diversified choices.

Superior cutting performance

High speed and accuracy: Laser cutting machines usually have high cutting efficiency and accuracy, which ensures cutting quality and maintains excellent performance even when dealing with complex shapes.

High power options: Different power options are available to enable customers to choose according to specific cutting needs such as material type and thickness.

User-friendly operation

Easy-to-use control system: Suntop's machines are usually equipped with a user-friendly interface, making operation easy and users can get started quickly.

Software compatibility: Compatibility with common design software contributes to a more efficient workflow.

Strong after-sales service

Technical Support: Provide comprehensive technical support and training to ensure that problems encountered by customers in the course of use can be resolved in a timely manner.

Maintenance and Service Guarantee: Good after-sales service and maintenance program can reduce the customer's operational risk.

Cost-effective

Reasonable price: Suntop Laser is usually competitive in price, providing good cost performance, so that customers can get a higher rate of return on investment.

Choosing a machine from Suntop Laser means that you are looking for a high-performance, highly reliable laser cutting machine that meets a wide range of cutting needs. In addition, good after-sales service and user support are key factors that set Suntop apart. Click here to contact Suntop Laser today and make sure you know exactly what you need before you buy so you can make the best choice.

FAQ

1. What is a fiber laser cutting machine?

Fiber laser cutting machine is a kind of equipment that uses fiber laser to generate laser beams, which are focused by optical system to cut metal and non-metal materials. Its energy density is concentrated, which can realize high precision and high speed cutting.

2. What are the advantages of fiber laser cutting machine compared with traditional laser cutting machine (such as CO2 laser cutting machine)?

Faster cutting speeds: Fiber laser cutting machines generally cut faster than CO2 laser cutting machines.

Wider range of cutting thicknesses: the ability to effectively cut thicker metal materials.

Lower maintenance costs: fiber lasers have low maintenance requirements and a long service life.

Lower energy consumption: fiber laser cutting machine running efficiency, energy consumption is relatively low.

3. Are fiber laser cutting machines easy to operate?

Yes, most fiber laser cutting machines are equipped with user-friendly operation interface and software, and after some training, operators can easily get started. However, it is still important to learn how to optimize the cutting parameters to get the best results.

4. What is the cutting accuracy of fiber laser cutting machine?

Fiber laser cutting machines typically have high cutting accuracy, usually within ±0.1 mm, making them suitable for applications that require precise cutting.

5. What maintenance is required for a fiber laser cutting machine?

Routine maintenance includes:

- Regularly checking the cleanliness of the laser and the optical path

- Checking and replacing worn cutting nozzles

- Regularly checking the condition of the cooling system

- Updating and maintenance of the software and control system

6. What are the safety requirements for a fiber laser cutting machine?

Fiber laser cutting machines should follow safety procedures when in use, including:

- Using protective eyewear

- Ensuring the cutting area is safe

- Regular maintenance of equipment and checking safety guards