FAQ(frequently asked questions)

Due to the customizable nature of fiber laser cutting machines, we are unable to provide a direct quote without first understanding your specific needs and requirements. Laser cutting machines can come in different sizes, power outputs, features, and capabilities, all of which affect the final price. That's why we take a customized approach to every project, working closely with our customers to understand their unique needs, production requirements, and budget, and then providing a personalized quote based on these factors. The cost of a fiber laser cutting machine can vary depending on several factors, including the power of the laser, the size and quality of the cutting bed, and the overall build quality of the machine. Generally speaking, a high-quality fiber laser cutting machine with a 1 kW power output and a cutting bed size of around 1.5 m x 3 m can cost anywhere from $100,000 to $200,000 USD. However, machines with higher power output and larger cutting beds can cost significantly more, with some models exceeding $1 million USD. The price of a 2 kW, 1.5m x 3m fiber laser cutting machine can range from $100,000 to $200,000 USD depending on the quality and features included. A 10 kW, 6m x 2.5m fiber laser cutting machine will typically cost more, with prices starting at around $500,000 USD and easily exceeding $1 million USD for high-end models with advanced features. The cost of a fiber laser metal pipe cutting machine can vary depending on the power output, size, and capabilities of the machine. Entry-level models may cost around $50,000 to $100,000 USD, while high-end models with advanced features can cost well over $500,000 USD. When it comes to comparing prices for fiber laser cutting machines with and without protection covers and exchange platforms, there may be a significant price difference between the two. Generally speaking, a fiber laser cutting machine with a protection cover and exchange platform will cost significantly more than a standalone machine without these features. Prices can start at around $150,000 USD for a basic machine without these features, while a fiber laser cutting machine with a protection cover and exchange platform can cost upwards of $300,000 USD or more depending on the specific model and features included. Additionally, the cost of consumables such as lenses and nozzles, as well as maintenance and repair expenses, should also be taken into account when calculating the total cost of ownership for a fiber laser cutting machine

Fiber laser cutting machine is a machine that utilizes high-energy-density laser beam for precise cutting. It consists of a laser generator, fiber optic transmission, focusing head and a computer numerical control (CNC) system. Its working principle is as follows: Firstly, the laser beam produced by the laser generator is delivered to the focusing head through the fiber optic cable. During the transmission, the laser beam is guided and expanded by specially designed fiber optics. Then, in the focusing head, the laser beam is focused to a small spot with high energy density by a convex lens or a beam expander. When the laser spot irradiates the surface of metal material, it will produce high temperature in a very short time, which will melt or evaporate the material locally, achieving the cutting purpose. At this time, the laser beam moves continually along the required cutting path, and melts or vaporizes the metal material continuously, eventually completing the cutting work. In general, fiber laser cutting machine uses high-energy-density laser beams, focusing and material selection to target the laser beam specifically to the metal material surface, achieving the effect of local material heating and ultimately realizing high precision, high speed and high efficiency cutting.

Compared to traditional cutting machines, fiber laser cutting machines have several advantages: 1. Higher precision: Fiber laser cutting machines can achieve high precision cutting with dimensions as small as a few micrometers. This is due to the high energy density of the laser beam and the precise control provided by the computer numerical control system. 2. Faster cutting speed: The high energy density of the laser beam means that fiber laser cutting machines are able to cut through materials faster than traditional cutting machines. 3. Lower operating costs: Fiber laser cutting machines have lower operating costs compared to traditional cutting machines, largely due to their lower energy consumption and maintenance requirements. 4. Greater versatility: Fiber laser cutting machines are capable of cutting a wide range of materials, including metals, plastics, and composites, with high precision and efficiency. They can also be used for marking, engraving, and other non-cutting applications. 5. Safer operation: Fiber laser cutting machines are equipped with safety features such as enclosed workspaces and laser shielding, which make them safer to operate compared to traditional cutting machines. In summary, fiber laser cutting machines offer higher precision, faster cutting speeds, lower operating costs, greater versatility, and safer operation compared to traditional cutting machines. These advantages make them ideal for modern manufacturing processes that require high quality, efficiency, and flexibility.

The maintenance and upkeep cost of a fiber laser cutting machine can vary depending on several factors such as the frequency of use, the quality of maintenance, and the specific parts that require replacement or repair. Some of the regular maintenance tasks include cleaning the lenses, checking and replacing the nozzle, and monitoring the cooling system. Additionally, it is essential to perform routine check-ups and preventative maintenance to ensure that the machine is operating at optimal levels, which may require scheduling professional services from a trained technician. Overall, a typical maintenance and upkeep cost for a fiber laser cutting machine can range between 5-15% of the total machine cost per year. However, this cost can be significantly reduced by implementing a robust maintenance plan and conducting regular checks to detect any issues early on. LDLASER provides a free 2-year warranty. Provide free service during the warranty period. Online guidance for international customers is free, and international customers need to pay extra for door-to-door visits.

Before purchasing a fiber laser cutting machine, there are several factors that one must consider to ensure optimal performance and value for money. 1. Machine specifications: Consider the technical specifications of the machine, including the laser wattage, bed size, cutting speed, accuracy, and repeatability. 2. Material compatibility: Make sure that the machine is compatible with the materials that need to be cut, including metal thickness, type, and density. 3. Budget: Determine the budget for the machine, including upfront costs, operational costs, maintenance, and repairs. 4. Service and support: Evaluate the level of service and support offered by the manufacturer or supplier, including warranty, training, and after-sales service. 5. Reputation and reviews: Research the reputation and reviews of the manufacturer or supplier and their track record in the industry. 6. Safety features: Check if the machine meets safety standards and regulations, including safety interlocks, shielding, and emergency stop buttons. 7. Software compatibility: Ensure that the machine's software is compatible with any existing design and nesting software used in the production workflow. 8. Operator training: Plan for training and education for operators to ensure safety and optimal performance. By considering these factors, one can make an informed decision and choose a fiber laser cutting machine that is suitable for their specific needs and requirements.

The technical parameters of different models of fiber laser cutting machines vary greatly.Some parameters are not as big as possible.It should be considered comprehensively according to your own actual situation. Its technical parameters include the following: 1. Laser power: The power of the laser beam usually ranges from 1000 watts to more than 20,000 watts. 2. Cutting thickness: The thickness of the material that can be cut depends on the laser power and the type of material. Typically, fiber laser cutting machines can cut through materials up to 20 mm thick. 3. Cutting speed: The cutting speed is determined by the laser power and the thickness of the material. Higher laser power and thinner materials result in faster cutting speeds. 4. Cutting precision: The precision of the cutting machine depends on the quality of the laser beam, the focusing lens, the motion control system, and the cutting software. Modern fiber laser cutting machines can achieve a cutting precision of up to 0.1 mm. 5. Cooling system: Fiber laser cutting machines require a cooling system to maintain the stable operation of the laser generator. The cooling system includes a chiller and a water circuit. 6. Control system: The fiber laser cutting machine is controlled by a CNC system, which allows for complex cutting shapes and patterns. 7. Safety measures: A fiber laser cutting machine should be equipped with safety measures to protect the operator and surrounding areas from the hazardous laser radiation.

There are many manufacturers of fiber laser cutting machines around the world, including: 1. Trumpf 2. Bystronic 3. Amada 4. Prima Power 5. Mitsubishi Electric 6. Mazak 7. IPG Photonics Corporation 8. Coherent Inc. 9. Laserline GmbH In addition to these manufacturers, LD LASER is also a reputable manufacturer of fiber laser cutting machines. They offer a wide range of products with advanced technology and excellent cutting performance.

There are several important safety precautions to consider when using a fiber laser cutting machine, including: 1. Proper training: Only individuals who have been properly trained on the equipment should operate the machine. 2. Eye protection: Fiber lasers emit a powerful beam of light that can cause serious eye damage or blindness. Appropriate laser-safe glasses or goggles should always be worn when operating or near the machine. 3. Ventilation and air quality: The cutting process can produce fumes and particles that are harmful to health. Proper ventilation and air quality monitoring are necessary to protect operators and others in the area. 4. Fire hazards: Laser cutting machines can generate high temperatures, sparks and flames due to material interactions with the laser beam. Proper fire suppression equipment should be available and regularly maintained. 5. Electrical safety: High-voltage electrical components in the laser system pose a risk of injury or death. All electrical connections and grounding should be regularly inspected and maintained. 6. Machine maintenance: Regular maintenance and inspection of the machine is necessary to ensure safe and reliable operation. It is important to follow all applicable safety regulations and guidelines, and consult with a qualified professional for any specific safety concerns related to your particular machine or application.

Transportation and installation of a fiber laser cutting machine require attention to several important factors to ensure safety and proper operation. Here are some key considerations: Transportation: 1. Proper packaging: The machine should be packed securely in a sturdy crate or container to protect it from damage during transport. 2. Secure loading: The machine should be loaded onto the transport vehicle using appropriate lifting equipment, such as a crane or forklift, and secured with straps or other restraints to prevent movement during transit. 3. Adequate protection: The machine should be protected from extreme temperatures, moisture, and other environmental hazards during transport. Installation: 1. Proper site preparation: The installation site should be properly prepared, including ensuring adequate space and access, appropriate flooring, and proper electrical and ventilation systems. 2. Accurate positioning: The machine should be accurately positioned and leveled to ensure proper alignment and operation. 3. Correct electrical connections: Proper electrical connections should be made according to manufacturer instructions and local codes. 4. Safety considerations: All safety precautions, such as proper grounding, fire suppression equipment, and personal protective equipment, should be in place before the machine is turned on. 5. Calibration and testing: The machine should be calibrated and tested before use to ensure proper performance and accuracy. It is important to follow all manufacturer instructions and consult with a qualified professional for any specific requirements or concerns related to your particular machine or installation site.

Fiber laser cutting machines are widely used in various industries for their high precision, speed, and efficiency. The following is a detailed guide on how to use and operate a fiber laser cutting machine. 1. First, power on the machine and computer. Check the water chiller pump, exhaust fan, and other auxiliary equipment to ensure they are running normally. 2. Turn on the control software, import the design drawing file, and set up the cutting parameters such as the material type, thickness, and cutting speed. 3. Adjust the focus of the laser beam according to the thickness of the material being cut. This can be done using the automatic focusing system or manually adjusting the lens head. 4. Load the material onto the working table, align it with the cutting path, and fix it in place. 5. Press the start button on the control panel to begin the cutting process. Monitor the cutting progress and adjust parameters if necessary. 6. After the cutting is complete, remove the finished product and clean any debris from the working area. 7. When finished using the machine, turn off the control software, shut down the computer, and turn off all auxiliary equipment. 8. Regularly maintain and inspect the machine to ensure its optimal performance and lifespan. It is important to note that proper safety measures should be taken when operating a fiber laser cutting machine, such as wearing protective gear and not leaving the machine unattended while in operation.

Fiber laser cutting machines are widely used in various industries due to their high precision, efficiency and flexibility. Here are some of the main application areas: 1. Steel structure manufacturing: Fiber laser cutting machines are commonly used for cutting and processing steel beams, columns, and other components in the construction industry. 2. Hydraulic container manufacturing: These machines are used to cut and shape various parts of hydraulic containers, such as tanks, cylinders, and housings. 3. Metal product manufacturing: Fiber laser cutting machines are popular in the production of metal products such as furniture, lamps, and decorative items. 4. Steel manufacturing: They are used to cut and process steel plates, tubes, and rods in the manufacturing process. 5. Sheet metal processing: Fiber laser cutting machines are commonly used for cutting and shaping sheet metal for various applications in industries such as automotive, aerospace, and electronics. 6. Automotive industry: Fiber laser cutting machines can process various parts of automobile body, such as doors, hoods, and trunk lids. 7. Aerospace industry: They are used to cut complex shapes and designs on various materials like titanium alloys and aluminum. 8. Electronics industry: Fiber laser cutting machines can precisely cut small intricate components for electronic devices. 9. Medical industry: These machines are used for cutting surgical instruments, implantable medical devices, and various other medical equipment. 10. Jewelry industry: Precious metals and various other materials can be easily cut and engraved with a high level of precision, making fiber laser cutting machines ideal for the jewelry industry. 11. Architecture and construction industry: These machines are used for cutting metal sheets and tubes for buildings, bridges, and other constructions. 12. Defense industry: Fiber laser cutting machines are used to make parts for tanks, missiles, and fighter aircraft. In summary, fiber laser cutting machines have a wide range of applications in various industries that require high precision and efficiency in cutting and processing metals and other materials.If you are not sure if it applies to your industry. Please consult an LD LASER representative.