Ortur Fiber Laser

Ortur Fiber Laser

Ortur fiber laser is a technique that involves using laser beams to mark materials without making physical contact with the material to be marked. It has become widely used because it is effective in producing high-quality impressions without the use of materials such as ink. This technique uses a fiber optic cable that is doped with rare earth metals. The laser beam ejected is used to deposit the required mark on this material and is associated with high beam quality and good stability.
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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 Ortur Fiber Laser?

 

Ortur fiber laser is a technique that involves using laser beams to mark materials without making physical contact with the material to be marked. It has become widely used because it is effective in producing high-quality impressions without the use of materials such as ink. This technique uses a fiber optic cable that is doped with rare earth metals. The laser beam ejected is used to deposit the required mark on this material and is associated with high beam quality and good stability.

 

Videojet Fiber Laser

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

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

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

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

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

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

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

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

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 Ortur Fiber Laser

Unleashing Unmatched Speed and Efficiency
The efficiency of any manufacturing process plays a crucial role in determining the overall productivity and profitability. The fiber laser marking machine excels in both speed and accuracy, which results in exceptional efficiency. Unlike traditional marking methods, the fiber laser marking machine can quickly mark various materials, ranging from metal to plastics, with precision. This unparalleled speed ensures higher output rates, reducing production time and overall costs.

 

A Multitude of Material Compatibility
One of the standout advantages of the fiber laser marking machine is its versatility in handling a wide range of materials. Whether it is aluminum, stainless steel, ceramics, plastics, or even delicate substances like glass, the fiber laser marking machine can produce high-quality markings without compromising the integrity of the material. This flexibility makes it an ideal choice for manufacturers operating in diverse industries.

 

Longevity that Transcends Expectations
When investing in any equipment, durability and longevity are vital considerations. The fiber laser marking machine boasts an impressive lifespan, thanks to its solid-state design. Unlike traditional laser systems that degrade over time, the solid-state fiber lasers used in this machine are built to last. With an extended lifespan, businesses can rely on their fiber laser marking machine to consistently deliver exceptional results for years to come.

 

Unsurpassed Precision and Customization
Accurate and intricate markings are often crucial, particularly in industries where branding and traceability are paramount. The fiber laser marking machine is exceptionally adept at producing high-resolution markings, even on intricate designs or small components. This precision ensures that every product can be uniquely labeled, aiding in inventory management, brand recognition, and counterfeit prevention. Moreover, the fiber laser marking machine allows for customization, enabling businesses to personalize their products with serial numbers, barcodes, or even intricate designs.

 

Environmental Friendliness and Cost Savings
As sustainability is increasingly emphasized across industries, the fiber laser marking machine stands out due to its eco-friendly nature. Utilizing fiber optics and fiber lasers, this machine eliminates the need for consumables like inks or solvents, thereby reducing waste and environmental impact. Additionally, the low maintenance requirements and lack of consumables result in substantial cost savings over time.

 

Is Ortur Fiber Laser Permanent?

 

Laser engraving centers around material ablation - i.e., removal - via the laser and high heat. The laser focuses heat on the material's surface and cuts deep crevices in the desired pattern. The result is a high-contrast, permanent carving that will remain readable even after wear and tear or surface treatments.

 

Laser engraving works with a wide range of materials and creates a long-lasting cut. It's ideal for applications where identification information must stay in place for years to come, even in the presence of tough conditions. For example, after years of exposure to harsh chemicals, moisture and grime, you would still be able to read a laser-engraved data plate attached to a piece of industrial equipment. A barcode scanner would also be able to read it, thanks to the high contrast that comes from this process.

 

Ortur Fiber Laser
How Ortur Fiber Laser Works?

A Ortur fiber laser marking 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.

The core of the Ortur fiber laser marking machine is its fiber optic laser source. This source generates a beam that is then directed through a high-speed scanner to create precise, high-quality marks on a variety of surfaces. The process is non-contact, meaning it doesn't physically touch the material, which ensures minimal wear and tear.

 

 

What Are the Best Uses for Ortur Fiber Laser?

Fiber lasers are among the more energy-efficient laser options available, being up to 50% more energy efficient than CO2 lasers. There are several classification systems based on the: laser source, mode of operation, laser power, and mode (the size of the optical fiber's core, through which light flows).

 

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.

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Factors Affecting Power Loss in Ortur Fiber Lasers

To better understand how fiber lasers maintain their power over time, let's explore some key factors that can impact their performance:

 
 

Quality of Laser Source

The initial quality of the laser source plays a crucial role in determining the long-term stability of the fiber laser. Higher quality components are less likely to degrade quickly, resulting in minimal power loss.

 
 
 

Operating Conditions

Proper operating conditions, including temperature control and regular maintenance, can help prolong the lifespan of a fiber laser and mitigate power loss over time.

 
 
 

Maintenance Practices

Regular maintenance, such as cleaning optical components and monitoring key parameters, can prevent premature power loss and ensure consistent performance.

 

 

Tips to Choose the Best Ortur Fiber Laser
 

Investing in the right fiber laser is the first step towards ensuring easy maintenance. Here are some essential tips to consider when choosing the best machine for your needs:

Cutting Requirements
Proper maintenance of a fiber laser cutting machine starts with understanding your cutting requirements. Evaluate the types of materials and their thicknesses you'll be working with. This assessment will help you determine the appropriate settings and maintenance tasks required to keep the machine running efficiently for specific cutting applications.

 

Machine Quality
The quality of the fiber laser cutting machine plays a significant role in its maintenance needs. Invest in a high-quality machine from a reputable manufacturer known for its durable and reliable products. A well-built machine will require less frequent maintenance and repairs, saving you time and money in the long run.

 

After-Sales Support
Good after-sales support is crucial for proper maintenance. Choose a manufacturer that offers comprehensive after-sales support, including technical assistance and maintenance services. Having access to a responsive support team can help you address any maintenance issues promptly and keep your fiber laser cutting machine in top condition.

 

Versatility
When considering maintenance, think about the machine's versatility. A fibre laser cutting machine that can handle a wide range of materials and cutting applications may require different maintenance approaches based on the specific tasks it performs. Ensure you have maintenance procedures tailored to the various materials and cutting processes involved.

 

Automation Features
Automation features in a fibre laser cutting machine can impact maintenance positively. Automated systems can enhance efficiency and reduce the potential for human error during maintenance tasks. Regularly check and calibrate the automation features to ensure they operate smoothly and accurately.

 

Cost-Effectiveness
Optimise maintenance practices to ensure cost-effectiveness. Regularly inspect and replace consumables, such as nozzles and lenses, to maintain cutting precision and avoid costly mistakes. Additionally, conduct preventive maintenance to catch potential issues early, preventing expensive breakdowns.

 

Training and Support
Properly maintaining a fiber laser cutting machine requires knowledgeable operators. Invest in training programs for your team to ensure they understand the machine's maintenance needs and can perform routine tasks correctly. Trained operators can identify potential problems early, leading to more efficient maintenance and reducing downtime.

 

Future Expansion
Consider future expansion plans when setting up a maintenance schedule. As your business grows, your fiber laser cutting machine may encounter higher workloads. Plan for possible upgrades and maintenance adjustments to accommodate increased usage and maintain cutting quality.

 

How Long Does a Ortur Fiber Laser Last?
 

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.

 

The MTBF measures the reliability of a laser by indicating how many hours the laser is expected to function before a failure occurs. It is obtained by testing multiple laser units, and then dividing the total number of operational hours by the total number of failures.

 

Although this value does not exactly tell you how long a fiber laser can last, it still provides a good idea of the laser's reliability.

 

If you really want to know the exact lifespan of a fiber laser, you'll be disappointed as there's no real answer. In truth, fiber lasers have critical points in their lifetime when they can fail.

 

Ortur Fiber Laser Enables Optimal Material Preparation for Cutting
 
Stainless Steel

Cleaning: Remove any surface contaminants like oils or rust using a degreaser or chemical solvent.
Flat Positioning: Ensure the steel is completely flat on the cutting table to avoid distortions during the laser cutting process.
Protective Film: Apply a protective film to prevent surface scratches and reduce the thermal impact.

Acrylic

Peel-off Layer Intact: Keep the protective film on to prevent burn marks.
Air Assist: Use air assist to blow away fumes and molten particles, which helps achieve a glossy edge finish.
Parameter Adjustment: Fine-tune the power and speed settings to avoid excessive melting.

Aluminum

Clamping: Securely clamp the aluminum to prevent it from moving due to thermal expansion.
Focus Precision: Adjust the focus to be slightly above the surface to enhance the cut quality and speed.
Nozzle Selection: Use a smaller diameter nozzle for a more concentrated and effective cutting beam.

Wood

Moisture Content Check: Ensure the wood has a consistent and low moisture content to decrease variability in cutting performance.
Resin and Sap Management: Clean any areas with high resin or sap concentrations to prevent burning.
Masking: Apply a masking tape on the surface to reduce smoke staining.

Polycarbonate

Protective Film Application: Keep the protective film on both sides if possible to protect from heat and reduce flare.
Air Assist: Strong air assist is crucial to blow away any melted particles and prevent them from reattaching to the cutting edges.
Speed Optimization: Operate at faster cutting speeds to minimize heat buildup and avoid melting the material.

Fabric

Flat and Tensioned: Stretch and secure the fabric flat to avoid any movement or buckling during the cutting process.
Test Cuts: Conduct initial test cuts to determine the optimal frequency and power settings that prevent burning and maximize cutting speed.
Ventilation: Enhance the exhaust systems to evacuate smoke and particulate matter effectively.

 

 
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.
Hangzhou Sanyou Intelligent Mechanical And Electrical Equipment Co., Ltd

 

 
Our Certificate

 

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Ultimate FAQ Guide to Ortur Fiber Laser
 

Q: How does Ortur fiber laser 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 Ortur fiber lasers 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 Ortur fiber laser cut paper?

A: Ortur fiber lasers 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 Ortur fiber laser 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 Ortur fiber laser 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: How to optimize the use of Ortur fiber lasers 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: Can a Ortur fiber laser cut acrylic?

A: Ortur fiber lasers 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 Ortur fiber lasers 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 Ortur fiber laser cut rubber?

A: Ortur fiber lasers 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 Ortur 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 Ortur fiber laser cut foam?

A: Ortur fiber lasers 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: What are the capabilities of a Ortur fiber laser?

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 Ortur fiber laser?

A: Ortur fiber lasers 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 Ortur fiber lasers 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.

Q: Can a Ortur fiber laser 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: What does a Ortur fiber laser 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 Ortur fiber laser?

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 Ortur fiber laser 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).

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