Name: China Customized Smart Fiber Laser Cutting Machine Manufacturers, Suppliers and Factory
Brand: Hairong Laser
SKU: 243851032

Why Choose Us?

Rich experience
Hangzhou Hairong Laser Technology Co., Ltd. Founded on May 12, 2008, is a high-tech enterprise integrating optics, machinery and electronics, producing and manufacturing all kinds of laser cutting machines, laser welding machines, intelligent automation non-standard equipment and so on.

Technological innovation
Hairong must pay attention to technological innovation. Through scientific and technological innovation, we will further improve corporate efficiency, use the technology we master to contribute to society, attach great importance to the scientific research and development of our own team and the introduction of foreign advanced technology.

Professional team
Professional and technical personnel 80+, Hairong has mechanical engineering, electronic and electrical, management and other types of professional and technical personnel, with a complete set of laser professional equipment development and production team.

Service system
Hairong service terminal 600+ perfect service system, to provide customers with fast, meticulous pre-sale, sale, after-sale!

What Is Standard Fiber Laser Cutting Machine

The standard fiber laser cutting machine utilizes a high-intensity laser beam which is generated by a laser source to precisely cut through various materials with exceptional speed. Unlike traditional CO2 lasers which get support from gas amplification, fiber lasers are composed of optical fibers. It offers several advantages including higher efficiency, better beam quality and better reliability. The laser cutting machine begins with the generation of a laser beam within the laser source. The laser beam is transmitted through a flexible fiber-optic cable to the print head, it is focused onto the workpiece. As the fiber laser interacts with the material surface, generates intense heat and causes melting & vaporization. The high-pressure laser is directed onto the cutting zone to blow away molten material and create a clean, precise cut.

All-Around Fiber Laser Cutting Machine

The high-efficiency bus control CNC system cooperates with the high-performance motion system, supports multi-axis linkage, fast response, smooth dynamic performance, and saves idle running time to the greatest extent.

CNC Fiber Laser Cutting Machine

A CNC (Computer Numerical Control) cutting machine is a computer-controlled machine tool used for cutting various materials such as wood, metal, plastics, foam, and composites.

3D Fiber Laser Cutting Machine

3D fiber laser cutting machine is a high-performance, high-precision digital cutting machine for precision cutting of various materials, including metals, plastics, and wood.

Large Table Top Fiber Laser Cutting Machine

Industrial aesthetics, novel appearance, stable machine tool structure, modern appearance and function are integrated, beautiful and practical.
Reduce load, adopt patented technology high-strength aluminum alloy beam, light and stable structure, reduce the motion drive load as much as possible.

Integrated Fiber Laser Cutting Machine

Industrial aesthetics: innovative design, sturdy machine tool construction, contemporary appearance and function combined, elegant and useful.
Reduce load: The lightweight, stable structure minimizes the motion driving load to the greatest extent feasible by utilizing high-strength aluminum alloy cross beams, a patented technique.

Economic Laser Tube Cutting Machine 1000W-3000W

An economic laser tube cutting machine with power ranging from 1000W to 3000W is a versatile cutting solution designed for efficient and cost-effective processing of various types of tubes and profiles.

Individual Electrical Cabinet Fiber Laser Cutting Machine

Safe, Efficient, Energy Saving, Environmental Friendly, High Power, Large Format Fast Exchange

Stainless Steel Fiber Laser Cutting Machine

Fiber laser cutting machine which consist of machine tool, motion parts, electrical equipment control parts, and other assist parts.

Professional Laser Tube Cutting Machine

Novel appearance of industrial aesthetics, stable machine tool structure, modern appearance and function are integrated, beautiful and durable.

Applications of Standard Fiber Laser Cutting Machines

Standard fiber laser cutting machines are used in many industries, including:

Automotive

Cut parts for automobiles, including body panels, exhaust systems, and suspension components.

Aerospace

Cut parts for aeroplanes, including engine components, fuselage panels, and landing gear.

Medical

Cut medical devices, including implants, surgical instruments, and prosthetics.

Electronics

Cut components for electronics, including circuit boards and computer parts.

Jewellery

Cut intricate designs and patterns in jewellery.

Exploring Future Trends in Standard Fiber Laser Cutting Machine Technology

Standard fiber laser cutting machines are revolutionizing the manufacturing industry with their high precision. As technology advances in processing, several trends in industries are shaping the future of laser cutting machines which promise greater efficiency, reliability, flexibility and modernized capabilities.

● Enhanced automation and integration
Automation is a significant trend across various industries and the realm of laser cutting machines is no exception. Future machines are probably to include superior automation functions with automatic nozzle changers and clever workpiece positioning structures. Integration with high-standard components will allow seamless connectivity, allowing machines within the production technique and optimizing manufacturing workflows.

● Intelligent control systems
The improvement of sophisticated systems is poised to play a crucial position in the evolution of the fiber laser reducing era. CNC techniques will allow real-time monitoring & adjustment of cutting parameters, leading to improved performance, higher pleasant cuts and decreased cloth waste. These sensible control structures can decorate predictive maintenance skills, making sure minimum downtime and maximum productiveness.

● Multi-material processing
While fiber lasers have historically excelled in reducing metals wastage which includes steel, aluminum and stainless steel, future trends advise a growing call for multi-material processing competencies. Advanced fiber laser slicing machines might be designed to address a broader variety of materials. This enlargement of talents will cater to numerous enterprise requirements and open up new opportunities in diverse sectors.

● High power and speed
Advances in fiber laser technology are driving the development of fiber lasers with higher power and faster cutting speeds. This machine is expected to deliver higher wattage, enabling ultrathin cuts while maintaining accuracy and edge quality advanced beam delivery systems and optics will further increase cutting speeds, enabling fiber laser cutting devices has be efficient and cost-effective.

● Compact and modular design
Space optimization and flexibility will be key considerations in the design of future standard fiber laser cutting machines. Manufacturers can focus on compact modular systems that can be easily integrated into various products including small factories and large manufacturing facilities. Modular systems will provide flexibility and customization, enabling businesses to gain improvements in laser cutting capabilities and can adapt to different needs & requirements.

Why Standard Fiber Laser Cutting Machine Technology Is the Best Option for Sheet Metal Processing

The technology behind standard fiber laser cutting machine cutting allows it to deliver extremely high power with minimal generated heat, which translates into a superb electrical-to-beam power conversion ratio.

Standard fiber laser cutting machines provide high precision of beam diameter, intensity, and edge sharpness which results in accuracy, reliability, and the capacity to carry out intricate details.

The sheet metal is not contaminated or at risk of being warped by external objects because it's cut by light which guarantees a clean, consistent cut from start to end.

Standard fiber laser cutting machines reduce overhead and operating costs due to their durable components, few consumables, and minimal maintenance requirements.

Speed is also a distinctive feature in standard fiber laser cutting machines which can cut high-precision parts within seconds, reducing production times and increasing productivity per hour.

Standard standard fiber laser cutting machines are compact and take up minimal floor space, making them the ideal choice when manufacturing areas are small or scarce.

The fact that standard fiber laser cutting machine technology is fast and uses less energy than other types of sheet metal cutting machine contributes to its reduced environmental footprint.

Metal Types Cut by Standard Fiber Laser Cutting Machines

For plates up to 4 mm thick, nitrogen can be used as a gas for cutting. In this case, the cutting edge is not oxidized. On plates with a thickness of more than 10 mm, oil can be applied to the surface of the workpiece to obtain a better cut quality.
● Stainless steel
Oxygen can be used when oxidation of the cutting edge is acceptable. Use nitrogen to get a non-oxidized edge without burrs.

● Titanium
Titanium plates are cut with argon and nitrogen as process gases.

● Aluminum
Despite its high reflectivity and thermal conductivity, aluminum can be cut to a thickness of 6 mm, depending on the alloy type and laser power.
When cutting with oxygen, the cutting surface is rough and hard. The cut surface is smooth when using nitrogen.
Pure aluminum is very difficult to cut because of its high purity. The laser system must be equipped with a "reflective absorption" device for cutting aluminum, otherwise the optical components will be damaged by reflection.

● Copper and brass
Both materials have a high reflectivity and a very good thermal conductivity.
Brass with a thickness of 1 mm can be cut with nitrogen. Copper with a thickness of less than 2mm can be cut with oxygen.
Copper and brass are cut only if the laser system is equipped with a "reflective absorption" device, otherwise the optical components will be damaged by reflection.

Benefits of Standard Fiber Laser Cutting Machine

Standard fiber laser cutting machine stands out in the manufacturing industry for its exceptional benefits, ranging from its precision to its environmental advantages.

High precision and accuracy

One of the most significant advantages of fiber laser cutting is its unparalleled precision and accuracy.
The technology allows for extremely fine cuts, with a minimal kerf width, enabling intricate designs and tight tolerances that are often beyond the capabilities of traditional cutting methods.
This precision is crucial in industries where even the slightest deviation can compromise the functionality or safety of a component, such as in aerospace and medical device manufacturing.

Efficiency and speed

Standard fiber laser cutting machines are renowned for their efficiency and speed, capable of cutting materials much faster than mechanical cutting methods (depending on the laser power of course).
This speed is not just about the raw cutting pace; it also includes reduced setup times and faster processing, as the technology allows for quick adjustments to cut different materials and shapes.

Low maintenance and operating costs

Compared to traditional cutting technologies, standard fiber laser cutting machines require less maintenance and have lower operational costs. The fiber laser setup has fewer moving parts and requires little in the way of maintenance of moving parts and optical adjustment of mirrors, which are often needed in other types of laser cutting.

Environmental benefits: Energy efficiency and minimal waste

Standard fiber laser cutting machine is not only efficient in terms of speed and precision but also in its use of energy.
It is much more energy-efficient than conventional cutting methods, leading to lower electricity consumption and reduced environmental impact.
This efficiency, combined with the reduced need for consumables makes fiber laser cutting a more sustainable choice for the manufacturing industry.

How Does the Standard Fiber Laser Cutting Machine Work

The key component of the standard fiber laser cutting machine is a fiber laser generator, which focuses on high-power laser beams. When this powerful laser hits the surface of the material, high-intensity light is absorbed and converted into heat, thereby melting the surface. The following is the specific working process of an optical fiber laser generator:

● Light in the laser diode: To generate light, the diode uses two semiconductors with different charges. When the positive charge and negative charge meet, they will try to combine entering fiber cables and will be used to produce laser beams.

● The pump is guided in the fiber cable: In nature, light spreads in all directions. To focus on one direction to obtain laser beams, the fiber cable uses two basic components: Optical fiber core and bag layer. Due to the refractive index of the bag layer, the light can be retained in the core and the path is continued.

● Light is amplified in the laser cavity: When the pump light passes through the fiber cable, it finally enters the laser cavity -this is the place where the laser beam is formed. The laser cavity acts as a resonant here, which has led to "enlarged radiation light", so laser occurs.

● The laser generates a specific wavelength: Because specific particles release specific photons, the photons produced in the laser cavity have the same wavelength. This explains why each type of fiber-fiber laser produces a specific wavelength -and only that wavelength.

● Laser beam plastic surgery and release: The photon that leaves the resonance cavity forms a beam of a laser beam. Due to the optical guidance characteristics of the fiber, the laser beam is straight. To make the laser beam have an ideal shape, we usually use different components, such as using the lens to change the focal distance, the short focus distance can concentrate more energy into one area for more aggressive laser ablation forms, applicable to applicable laser applications of in-depth materials (that is, laser carvings and laser texture processing).

Our Factory

Hangzhou Hairong Laser Technology Co., Ltd
Founded on May 12, 2008, is a high-tech enterprise integrating optics, machinery and electronics, producing and manufacturing all kinds of laser cutting machines, laser welding machines, intelligent automation non-standard equipment and so on. In the past years, the company will be nearly 3,000 domestic and foreign enterprises to establish a cooperative relationship, customers and friends have witnessed the growth of Hairong people.

Our Certificate

Authorized 53 patents, of which: 6 invention patents, 42 utility model patents, 5 soft writings

FAQ

Q: What is standard fiber laser cutting machine?

A: The standard fiber laser cutting machine utilizes a high-intensity laser beam which is generated by a laser source to precisely cut through various materials with exceptional speed. Unlike traditional CO2 lasers which get support from gas amplification, fiber lasers are composed of optical fibers. It offers several advantages including higher efficiency, better beam quality and better reliability. The laser cutting machine begins with the generation of a laser beam within the laser source. The laser beam is transmitted through a flexible fiber-optic cable to the print head, it is focused onto the workpiece. As the fiber laser interacts with the material surface, generates intense heat and causes melting & vaporization. The high-pressure laser is directed onto the cutting zone to blow away molten material and create a clean, precise cut.

Q: How to choose standard fiber laser cutting machine?

A: Make certain that the machine you select is appropriate for your material requirements.
Power and capability: For the laser cutting machine's power, higher power machines can often cut thicker materials and have faster cutting speeds.
Cutting area and bed size: The cutting area and bed size needed for your applications.

Q: What is the basic of standard fiber laser cutting machine?

A: Standard fiber laser cutting machine is a prototyping and manufacturing tool used primarily by engineers, designers, and artists to cut and etch into flat material. Laser cutters use a thin, focused laser beam to pierce and cut through materials to cut out patterns and geometries specified by designers.

Q: What will a standard fiber laser cutting machine?

Q: What can standard fiber laser cutting machines cut?

Q: What are the components of standard fiber laser cutting machine?

A: The focus tracking system of a standard fiber laser cutting machine is generally composed of a focus cutting head and a tracking sensor system. The cutting head includes light guide focusing, water cooling, air blowing, and mechanical adjustment parts. The sensor is composed of a sensing element and an amplifying control par.

Q: Why use standard fiber laser cutting machine?

A: With recent breakthroughs, standard fiber laser cutting machines provide high quality cuts with thicker materials. standard fiber laser cutting machines also cut thinner materials faster than CO2 and are superior in cutting reflective metals, which provides a much lower cost of ownership.

Q: Why are standard fiber laser cutting machines so expensive?

A: Superior Performance: standard fiber laser cutting machines offer unparalleled speed, precision, and marking capability on various materials, justifying their premium price point. Durability and Reliability: These lasers boast exceptional lifespans exceeding 100,000 hours, making them a long-term investment.

Q: What are the advantages of standard fiber laser cutting machine?

A: Standard fiber laser cutting machines reduce overhead and operating costs due to their durable components, few consumables, and minimal maintenance requirements. Speed is also a distinctive feature in fiber lasers which can cut high-precision parts within seconds, reducing production times and increasing productivity per hour.

Q: How to work a standard fiber laser cutting machine?

A: The laser beam ensures that where the workpiece is hit by the beam, the material quickly melts and evaporates. At the same time, molten material is blown away with the help of a fast air flow. By doing this continuously, the workpiece is cut.

Q: Can a standard fiber laser cutting machine plastic?

A: Some plastics may be easily cut with the fiber laser. Examples include acrylics, PMMA, Polyoxymethylene, and thin PTFE (Teflon), and polycarbonate. However, you should consult a professional before cutting plastics, polymers, and composites. Plastics like thick polycarbonate and HDPE are not safe to cut and you run the risk of emitting toxic fumes, melting the material, or the material catching fire in the workspace.

Q: Do standard fiber laser cutting machines lose power over time?

A: One common concern with any type of laser is whether it loses power over time. Fortunately, fiber lasers are designed to maintain their power output over an extended period. Unlike traditional CO2 lasers, fiber lasers utilize a solid-state design, which significantly reduces the risk of power loss.

Q: Should I buy a standard fiber laser cutting machine?

A: You should consider the following productivity key factors: Power - Fiber lasers for industrial use typically have higher power output than those for home use. With higher power you have more flexibility, and you can process thicker materials and complete jobs faster.

Q: What is the difference between a standard fiber laser cutting machine and a CO2 laser?

A: Both machines can engrave or mark a wide range of materials, however, fibre lasers are designed to work with metals whereas CO2 lasers are compatible with a wider range of materials.

Q: Is a standard fiber laser cutting machine worth it?

A: Standard fiber laser cutting machine setup doesn't require routine maintenance like mirror replacement or adjustment. In contrast to CO2 lasers, fiber lasers have no blower or moving parts. Fiber lasers use less power and require less maintenance than others, which results in lower operating costs.

Q: Can I cut wood with a standard fiber laser cutting machine?

A: Standard fiber laser cutting machines are unique because they are usually used for cutting applications, which other lasers have trouble with. The fiber laser machine is highly reliable and has a longer lifespan, and produces the best results for wood cutting applications.

Q: What are standard fiber laser cutting machines good for?

A: Standard fiber laser cutting machines are good for cutting ferrous and non-ferrous metals like stainless steel, copper, aluminum, carbon steel, alloy steel, and other metals which absorb the fiber laser beam easier than they do a CO2 beam. For this reason, fiber lasers are superior in cutting reflective metals compared to other methods. They can also effectively cut nonmetals like wood, glass, paper and cardboards, some plastics, textiles, cork, etc. Another benefit of the fiber laser is the capability to cut thin materials much faster than the CO2 laser.

Q: How long do standard fiber laser cutting machines last?

A: A standard fiber laser cutting machine has a higher life expectancy than other laser solutions. The diode module found in a fiber laser functions three times longer than other laser technologies. The pumps in fiber laser have proven expected lifetime of greater than 100,000 hours.

Q: Does standard fiber laser cutting machine need gas?

A: During the standard fiber laser cutting machine process, an assist gas blows through a nozzle on the laser cutting head. How much gas is needed can vary, but it's generally a small amount.

Q: How thick can a standard fiber laser cutting machine?

A: Standard fiber laser cutting machines have different cutting capabilities depending on their power, but almost all fiber laser machines can cut a sheet of metal that is up to 13mm thick. Higher powered fiber laser machines with 10kW of power can cut mild steel up to 2mm and stainless steel and aluminium up to 30mm.

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