Name: China Customized Fiber Laser Printing Machine Manufacturers Suppliers - Quotation - Sanyou Tech
Brand: Sanyou
SKU: 252331323

Why Choose Us?

Quality Assurance
Hangzhou Sanyou Intelligent Electromechanical Equipment Co., Ltd. is an automated mechanical equipment enterprise that integrates research and development, design, production, sales, and service.

Wide Range of Applications
Hangzhou Sanyou Intelligent Electromechanical Equipment Co., Ltd. is located in Yuhang District, Hangzhou, mainly producing and operating automated machinery and equipment --- labeling machines, which are widely used in pharmaceutical, food, chemical, electronics and other industries.

Custom Service
The company's main products include various types of standard fully automatic labeling machines and non-standard fully automatic labeling machines, and can also provide customized services according to the actual production situation of customers.

Production Market
Our crystal products are distributed throughout the country and exported to countries and regions such as Southeast Asia, Europe, and America. The product quality adopts tracking service, free maintenance during the warranty period, and lifelong maintenance.

What is Fiber Laser Printing Machine?

A fiber laser printing machine is a type of laser that uses a fiber optic cable to deliver high-intensity laser beams to mark or engrave materials. Fiber lasers are known for their efficiency, precision, and versatility. They are particularly effective for marking metals, plastics, and other industrial materials.

Videojet Fiber Laser

It has the characteristics of high electro-optical conversion rate, long service life of nonlinear components, stable operation of the whole machine

Fiber Laser Printing Machine

CO2 laser is a gas laser with a wavelength of 106m, belonging to the mid infrared frequency band.

Trumpf Fibre Laser

It has the characteristics of high electro-optical conversion rate, long service life of nonlinear components, stable operation of the whole machine

Welase Fiber Laser Price

Through USB/SD/communication and other interfaces for data communication, the white tape coding software provides more comprehensive and convenient functions.

Ortur Fiber Laser

Using fiber laser output laser and then through the ultra-high-speed scanning galvanometer system to achieve the marking function the key components

Handheld Laser Marking Machine

It has the characteristics of high electro-optic conversion rate, long service life of nonlinear crystal, stable operation of the whole machine

UV Marking Machine

It has the characteristics of high electro-optical conversion rate, long service life of nonlinear crystals, stable operation of the whole machine

Ipg Lasernet

Adopting a two-point focusing assist system, this function can help operators quickly find the coding focal length when replacing coding products.

Trulaser Tube 3000 Fiber

Fiber laser is used to output laser, and then the marking function is achieved through an ultra high speed scanning mirror system.

Benefits of Fiber Laser Printing Machine

High Contrast
High-contrast marking refers to the ability of a laser marking machine to make clear and legible marks on the surface of a material. This is because fiber laser generators can cause darkening or color changes on the surface of some materials, especially metals. By adjusting laser settings such as power and pulse duration, fiber laser generators can create contrast by inducing localized oxidation, melting, or chemical changes in materials. This darkening or color change provides a sharp contrast and makes the marked area highly visible.

Excellent Marking Quality
The fiber laser generator produces a fine and focused laser beam, enabling high-precision marking with excellent edge definition and minimal distortion. This makes fiber laser marking ideal for applications requiring complex designs, small characters, and barcodes. Laser beams can also create clear and permanent marks on a variety of material surfaces, including metals, plastics, and more.

Fast
Fiber laser marking machines use a solid-state laser source to produce a laser beam with high peak power and excellent beam quality. Fiber laser marking offers significantly higher marking speeds than other marking technologies. With fiber laser, you can easily create different designs and patterns on materials in a short time, with higher productivity and operational efficiency, and less waste and downtime. It's the perfect choice to shorten your product development cycle and save you a lot of money.

Marked Durability
Marks created by fiber lasers are usually permanent and will not degrade and disappear due to environmental factors such as low temperature, contact, acidic or alkaline gases, and high concentrations or concentrations of gases. Therefore, it is favored for its durability in parts manufacturing industries such as automotive and aerospace. Permanent and durable markings enable these manufacturers to track and identify their products.

Compatible With Most Materials
Fiber laser marking machines are suitable for marking a variety of materials, including metals (such as stainless steel, aluminum, copper, etc.), plastics, etc., which provides greater flexibility. They are commonly used to mark barcodes, serial numbers, logos, text, and other graphics on metals, plastics, electronic components, medical devices, automotive parts, and more. Fiber laser marking is also suitable for complex shapes, for example, it can be used to mark wires and tubes. This makes it an ideal tool for serializing or tracking products in a customized manner.

Long-lasting And Low-maintenance
Fiber laser generators have a long lifespan, typically lasting tens of thousands of hours before needing to be replaced. Its solid-state design has no moving parts and requires less maintenance than other marking technologies. Fiber laser generators also have a compact design, making them easy to integrate into existing production lines. Fiber laser marking machines are a cost-effective solution in the long run.

Non-contact Marking
Fiber laser marking is a non-contact process, meaning that the laser beam does not physically touch the surface of the material being marked. This eliminates the risk of damaging delicate or sensitive surfaces and ensures product integrity. Additionally, the fiber laser generator produces a minimal heat-affected zone, reducing the possibility of thermal distortion or material damage.

Ease Of Integration And Automation
Fiber laser marking machines are compatible with various automation systems and can be seamlessly integrated into production lines. It can be easily controlled and programmed to automate the marking process, increasing productivity and efficiency. The flexibility of fiber laser generators also allows them to be integrated into existing manufacturing workflows with minimal modification.

Green
Marking processes such as chemical etching and inkjet use chemicals and inks to mark, these consumables are not only expensive but also have a negative impact by releasing harmful gases into the environment. Compared to marking technologies that rely heavily on consumables, fiber laser marking does not use any consumables such as chemicals, release any harmful chemicals, or produce airborne particles. This reduces operating costs and reduces environmental impact, making it a sustainable choice for marking applications.

Low Running Cost
Although the initial investment in fiber laser marking equipment is higher than that of traditional equipment, from the perspective of operating costs, the cost of fiber laser marking machines is lower. Fiber laser marking is fast, efficient, and does not require any consumables, except for the power cost of the equipment, only one operator is required to operate the machine.

The Parts of a Fiber Laser Printing Machine

A fiber laser printing machine is a device whose operation depends, at least in part, on a built-in fiber laser system. The core components of a fiber laser printing machine, for example, include:

Laser source
Laser cutting head
Servo motor
Cooling device
Air cutting system
Laser host (bed, beam, table, and Z-axis system)
Control system
Stabilizer

6 Factors To Consider When Choosing a Fiber Laser Printing Machine

Marking Speed

The first factor to look for when choosing a laser marking machine is the marking speed. While laser marking is one of the fastest available marking processes, there's still a high variance between high- and low-end models.
In addition to model quality, the material you want to mark and the size of your markings will determine your marking speed. Depending on the type of marking you're after, you may enjoy a faster or slower process. For example, laser annealing takes much longer than etching. However, it produces an indelible mark without harming the surface of your material.

UV Laser Marking Accuracy

Not all industries have the same requirements for accuracy. Some fields may need to carve in identification numbers quickly. Others may require higher precision, such as the medical or pharmaceutical fields.
Industrial laser marking machines have a few factors that can influence accuracy. One is the size of the beam spot on your material. The smaller that spot is, the more precise the laser can get. Another is the quality of the optical system and thermal control. Even slight variations could produce consistently disappointing results.

The Materials You're Using

Work with a laser manufacturer to determine what type of laser you need based on the material you're planning to mark. Many industries plan to mark metal. In that case, blue lasers are often the best choice.

The True Cost of Ownership

Some companies want to convince you that a laser marking machine is a one-time purchase, but that just isn't true. No one plans to buy a laser marking machine and throw it away after it performs at peak efficiency for a year. When you purchase a machine, you want to know how long it will last and what sort of maintenance you need to plan for during its lifespan.
Good machines should function for around a decade and should not require excessive maintenance. Be wary of companies that advertise their machines as being "easy to fix" because you can expect that you'll need to fix them often.

The Mix of Functionality, Reliability, and Affordability

The best laser marking systems balance their function, reliability, and affordability. When you start to sacrifice any of the three, you set yourself up for a situation you don't want to be in. It's better to research a ton and buy once rather than take a shot in the dark and regret it. Our laser marking systems strike a better balance than any others.

Choosing a Reputable Seller

You should make every large investment with confidence. While you may hope that all laser marking machine providers understand their products, you can't be sure until you see for yourself. When you get on a call with a salesperson, you must make sure they can explain to you how the machine functions and ensure they have a good sense of the machine's applications.

Working Principles of Fiber Laser Printing Machines

Fiber laser cutting machines operate on the principle of stimulated emission, wherein light energy is amplified and focused to cut through materials. The working principle can be summarised in the following steps:

Laser Generation

A seed laser produces a low-power laser beam.

Amplification

The beam is amplified as it passes through a fiber optic cable with rare-earth elements like erbium, ytterbium, or neodymium.

Beam Focusing

The amplified laser beam is precisely focused on the material to be cut using a lens.

Material Cutting

The intense energy of the focused laser beam rapidly heats up and vaporizes the material, resulting in a clean and precise cut.

How Deep Can a Fiber Laser Printing Machine Cut?

The depth to which a Fiber laser can cut depends on several factors, including the power of the laser, the type of material being cut, the angle of the cut, the quality of the focusing lens, and the speed at which the laser is moving.

In general, Fiber lasers can cut through metals up to several centimetres thick. However, the exact depth that a Fiber laser can cut may vary based on the specific application and the conditions of the laser cutting process.

Do Fiber Laser Printing Machines Lose Power over Time?

Fiber lasers are known for their durability and longevity, making them a popular choice for industrial applications. One common concern among users is whether fiber lasers lose power over time.

While all lasers experience some level of power degradation, fiber lasers are known for their stable performance over an extended period. The specific power loss over time can vary depending on several factors, including the quality of the laser source, maintenance practices, and operating conditions.

Fiber Laser Printing Machines Are Known for Energy Saving and Environmental Protection

Fiber laser marking machines are known for their excellent energy efficiency. Fiber lasers have a higher electrical-to-optical conversion efficiency than other types, such as CO2 or diode lasers. In practical terms, they use less power to operate, which can significantly reduce energy costs over time. This efficiency doesn't just save you money-it also contributes to a smaller carbon footprint. Rightly so, This consideration is becoming increasingly important for many hobbyists and consumers alike.

Traditional engraving methods can sometimes produce harmful emissions or waste byproducts, particularly when working with certain materials. In contrast, fiber laser marking generates no harmful emissions or waste, making it more environmentally friendly.

The robust nature of fiber lasers also contributes to their eco-friendliness. With a longer lifespan compared to other types of lasers or traditional engraving tools, fiber lasers reduce the environmental impact associated with manufacturing and disposing of equipment.

Fiber lasers' high precision and consistency result in fewer mistakes and less waste. This is beneficial from a cost and efficiency perspective and contributes to a more sustainable operation.

Weekly Maintenance Procedure for Fiber Laser Printing Machine

You don't need to overhaul your machine every week, but you do need to give it a little TLC. Here's a straightforward routine you can follow:

Check the Lens: Dirty or damaged lenses lead to inconsistent engraving. Make it a habit to inspect them regularly. If you see any dust or smudges, clean them with a non-abrasive cloth.

Inspect the Air Assist System: The air assist helps to remove debris and prevents overheating during operation. Keep an eye on the system and clean out any blockages or dust buildup to ensure efficiency.

Clear Out Debris: Tiny particles can build up in and around the machine. Make sure to vacuum or wipe down the inside of the machine regularly to avoid dust buildup that can interfere with your laser's accuracy.

Our Factory

Hangzhou Sanyou Intelligent Electromechanical Equipment Co., Ltd. is located in Yuhang District, Hangzhou, mainly producing and operating automated machinery and equipment --- labeling machines, which are widely used in pharmaceutical, food, chemical, electronics and other industries.

Our Certificate

Ultimate FAQ Guide to Fiber Laser Printing Machine

Q: What does a fiber laser printing machine do?

A: Laser-based Fiber cutting machines can be used to cut a wide range of materials, including metals such as stainless steel, carbon steel, aluminium, copper, brass, and titanium. They can also be used to cut non-metallic materials such as plastics, ceramics, and glass.

Q: What can you do with a fiber laser printing machine?

A: Given the vast range of possible wavelengths, fiber lasers are ideal for a number of applications including laser cutting, cleaning, texturing, engraving, drilling, marking, and welding. This also makes it possible for fiber lasers to be used in many industries, including materials processing and manufacturing, spectroscopy, electricity generation, transportation, medical applications, transportation, telecommunications, and military hardware.

Q: Is a fiber laser printing machine worth it?

A: If you need to cut thinner materials (< 8 mm), a fiber laser is the ideal choice as they can offer significantly higher cutting speeds than a CO2 laser and excellent cut quality (minimal dross and regular striations on the cut edge).

Q: Can a fiber laser printing machine cut wood?

A: While fiber lasers are highly effective for cutting metals and synthetic materials, they are generally less effective for cutting wood. Wood's organic composition and variable density can lead to inconsistent results, such as burning or excessive charring. Therefore, fiber lasers are not typically the preferred choice for woodworking, where other types of laser systems, like CO2 lasers, might be better suited due to their different wavelength and energy absorption characteristics.

Q: How does fiber laser printing machine work?

A:Fiber laser cutting machines work by using a computer-controlled laser to cut through materials.
The laser beam is generated by a diode and then amplified in a fiber optic cable.
It is then focused through a lens and directed onto the material to be cut.
The laser beam melts or vaporises the material, and a stream of gas blows away the molten or vaporised material.

Q: How long do fiber laser printing machines last?

A: Most online sources claim that fiber lasers last 100,000 hours whereas CO2 lasers last 30,000 hours. This is not entirely true. These numbers refer to a value called "mean time between failures" (MTBF), which isn't the same for all fiber lasers. In reality, you will see different numbers for different types of fiber lasers.

Q: Can fiber laser printing machine cut paper?

A: Fiber laser printing machines can cut cardboard and paper, offering precise and clean cuts without significant charring. Their efficiency and speed make them suitable for industries requiring intricate designs and rapid production cycles on these materials. However, the high power of fiber lasers means settings must be carefully managed to avoid burning thin materials, making them a powerful tool for detailed and high-volume paper and cardboard cutting tasks.

Q: Can you use a fiber laser printing machine to cut graphite?

A: Using a fiber laser to cut graphite is technically feasible due to graphite's good absorption of the laser wavelength. However, the process can be challenging due to graphite's brittle nature and the potential for inducing thermal stress, which might lead to material degradation or microcracking. Specialized settings and handling are necessary to maintain the integrity of the graphite during cutting, highlighting the need for careful parameter optimization in industrial applications.

Q: Can you use a fiber laser printing machine to cut leather?

A: Yes, fiber lasers can effectively cut leather, providing precise cuts and the ability to engrave detailed designs. This technology is particularly valued in the fashion and upholstery industries for its ability to produce clean edges and minimal material waste, enhancing both the quality and efficiency of leather production.

Q: Can a fiber laser printing machine cut acrylic?

A: Fiber laser printing machines are highly effective at cutting acrylic, offering advantages such as speed, precision, and the ability to create polished edges without additional processing. This capability makes fiber lasers ideal for applications in signage, displays, and other industries where acrylic is used extensively.

Q: Can fiber laser printing machines cut glass?

A: Cutting glass with a fiber laser is challenging due to the material's brittleness and transparency to the laser wavelength. While some types of coated or thin glass can be cut with specialized fiber lasers, the process generally requires adaptations such as adjusting the wavelength or using a CO2 laser, which is better suited for handling such materials.

Q: Can a fiber laser printing machine cut rubber?

A: Fiber laser printing machines can cut rubber, but the process requires precise control over laser parameters to prevent burning or melting. Suitable for cutting thin rubber sheets, fiber lasers offer clean cuts with minimal debris, making them ideal for creating detailed designs and shapes in manufacturing automotive and industrial gaskets.

Q: Can fiber laser cut Teflon?

A: Cutting Teflon with a fiber laser is challenging due to its high reflectivity and heat resistance. While technically possible, it generally results in uneven edges and potential thermal degradation of the material. Specialized settings and protective measures are necessary to achieve acceptable results, often making other cutting technologies more suitable for Teflon.

Q: Can a fiber laser printing machine cut foam?

A: Fiber laser printing machines can cut certain types of foam, particularly those that are dense and have a compact cellular structure. The process allows for high precision and clean cuts, suitable for packaging, insulation, or modeling industries. However, care must be taken to optimize laser settings to prevent excessive melting or combustion, ensuring product quality and safety.

Q: How to optimize the use of fiber laser printing machines for different materials?

A: Optimizing the use of fiber lasers for cutting various materials requires a clear understanding of the specific characteristics and reactions of those materials to the laser cutting process. Proper preparation and handling can enhance the efficiency and quality of the cuts, while also extending the lifespan of the laser equipment.

Q: What are the capabilities of a fiber laser printing machine?

A: Thanks to the incredibly high heat generated by the laser, it can easily and efficiently cut, engrave, mark, etch, and remove burrs from materials. Fiber lasers boast rapid production speed because of their high output and high heat.

Q: What is the life expectancy of a fiber laser printing machine?

A: Fiber laser printing machines typically have a longer lifespan compared to CO2 lasers. A fiber laser cutter can last up to 100,000 hours, thanks to its solid state lasers, which have fewer moving parts and require less maintenance.

Q: Do fiber laser printing machines lose power over time?

A: While all lasers experience some level of power degradation, fiber lasers are known for their stable performance over an extended period. The specific power loss over time can vary depending on several factors, including the quality of the laser source, maintenance practices, and operating conditions.

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