FAQ

  • Q Tianchen Laser FAQ: Manufacturer or Trading Company?

    A

    Tianchen Laser is a leading manufacturer of fiber laser cutting machines. We are not a trading company. We have our own factory and R&D team, which allows us to control the quality of our products and offer competitive prices to our customers.

    Why choose Tianchen Laser as your fiber laser cutting machine manufacturer?

    • We have over 10 years of experience in the laser cutting industry.
    • We offer a wide range of fiber laser cutting machines to meet your specific needs.
    • Our machines are CE certified and meet the highest safety standards.
    • We provide excellent customer service and support.

    Contact Tianchen Laser today to learn more about our fiber laser cutting machines.

     

    Tianchen Laser, your trusted fiber laser cutting machine manufacturer.

  • Q Tianchen Laser FAQ: CE Certification for Fiber Laser Tube Cutting Machines

    A

     

    Yes, Tianchen Laser fiber laser tube cutting machines are CE certified!

    We understand the importance of safety and regulatory compliance for our customers. That's why our fiber laser tube cutting machines have been rigorously tested and certified to meet the strict CE marking requirements. This certification, issued by TÜV Rheinland, a globally recognized independent testing organization, signifies that our machines comply with the relevant European health, safety, and environmental protection standards.

    What does CE certification mean for you?

    By choosing a CE-certified Tianchen Laser fiber laser tube cutting machine, you can be confident that you are getting a product that:

    • Meets high safety standards to protect operators and the surrounding environment.
    • Complies with relevant European regulations, making it easier to sell your products within the European Economic Area (EEA).
    • Is built with quality and reliability in mind.

    Tianchen Laser is committed to providing our customers with the best possible laser cutting solutions. Our CE certification is just one way we demonstrate our dedication to safety, quality, and customer satisfaction.

    Contact Tianchen Laser today to learn more about our CE-certified fiber laser tube cutting machines.

    Tianchen Laser, your trusted CE-certified fiber laser tube cutting machine manufacturer.

  • Q Tianchen Laser FAQ: Delivery, Installation, Training, Warranty, and Service

    A

    1. Delivery, Installation, and Training:

    • How long does it take to receive a Tianchen Laser fiber laser cutting machine after purchase?

    Tianchen Laser machines typically have a delivery lead time of 30 working days.

    • What are my delivery options?

    You can choose to pick up your machine from our facility free of charge, or you can pay a fixed rate to have it delivered to your location.

    • Does Tianchen Laser offer installation and training?

    Yes, Tianchen Laser offers on-site installation for your fiber laser cutting machine. We also provide basic training on how to operate the machine to get you started.

    2. Warranty:

    • What is the warranty on Tianchen Laser fiber laser cutting machines?

    Tianchen Laser offers a two-year warranty on all of our fiber laser cutting machines. This warranty covers defects in materials and workmanship.

    3. Service and Support:

    • Does Tianchen Laser offer service and support after the warranty period?

    Yes, Tianchen Laser offers a variety of service and support options to meet your specific needs. We can provide preventative maintenance, repairs, and technical support to help you keep your machine running smoothly.

    Tianchen Laser is committed to providing our customers with the best possible experience. We offer a comprehensive range of services to support you throughout the entire ownership lifecycle of your fiber laser cutting machine.

    Contact Tianchen Laser today to learn more about our delivery, installation, training, warranty, and service options.

    Tianchen Laser, your laser cutting expert!

  • Q Where to buy a fiber laser cutting machine?

    A

     

    There are many places to buy a fiber laser cutting machine. Some of the most common places include:

    • Fiber laser cutting machine manufacturers: Many manufacturers of fiber laser cutting machines sell their products directly to customers. This can be a good option if you want to get a machine that is specifically designed for your needs.
    • Machine tool distributors: Machine tool distributors sell a variety of metalworking machines, including fiber laser cutting machines. This can be a good option if you want to compare different machines from different manufacturers.
    • Online retailers: There are also a number of online retailers that sell fiber laser cutting machines. This can be a good option if you are looking for a good deal or if you want to buy a machine from a company that is not located in your area.

    When choosing a place to buy a fiber laser cutting machine, it is important to consider the following factors:

    • Price: The price of a fiber laser cutting machine can vary depending on the manufacturer, the model, and the features.
    • Reputation: The reputation of the manufacturer or distributor is important. You want to make sure that you are buying a machine from a company that has a good reputation for quality and customer service.
    • Warranty: The warranty that is offered with the machine is also important. You want to make sure that you are covered in case there are any problems with the machine.
    • Support: The level of support that is offered by the manufacturer or distributor is also important. You want to make sure that you can get help if you have any questions or problems with the machine.

    Tianchen Laser is a leading manufacturer of fiber laser cutting machines. With many years of R&D and production experience, our products have reliable quality and stable performance, and are deeply trusted by users. Tianchen Laser provides a variety of models of fiber laser cutting machines to meet the needs of different users.

    If you want to know more about fiber laser cutting machines, please contact Tianchen Laser.

    Tianchen Laser, your laser cutting expert!

    Here are some additional tips on how to choose a place to buy a fiber laser cutting machine:

    • Get quotes from multiple companies.
    • Read reviews of different companies.
    • Visit the company's website and showroom.
    • Talk to the company's sales representatives.
    • Ask about the company's warranty and support policies.

    By following these tips, you can help to choose a place to buy a fiber laser cutting machine that is right for you.

  • Q What is the kerf width of a fiber laser cutting machine?

    A

     

    Kerf Width of a Fiber Laser Cutting Machine

    The kerf width of a fiber laser cutting machine is the width of the material that is removed by the laser beam. It is typically measured in millimeters.

    The kerf width of a fiber laser cutting machine depends on a number of factors, including:

    • Laser power: Higher laser power results in a wider kerf width.
    • Material type: Different materials have different kerf widths. For example, carbon steel has a wider kerf width than stainless steel.
    • Material thickness: Thicker materials have wider kerf widths.
    • Cutting quality: Higher cutting quality requires a narrower kerf width.
    • Machine condition: A well-maintained machine will produce a narrower kerf width than a poorly maintained machine.

    In general, fiber laser cutting machines can achieve a kerf width of 0.1mm to 0.5mm. This means that the laser beam will remove a width of 0.1mm to 0.5mm of material from the cut edge.

    The following table shows the kerf widths of different materials for a 1kW fiber laser cutting machine:

    Material Thickness Kerf Width
    Carbon Steel 1mm 0.2mm
    Stainless Steel 1mm 0.1mm
    Aluminum 1mm 0.15mm
    Brass 1mm 0.15mm
    Copper 1mm 0.2mm

    The following table shows the kerf widths of different materials for a 4kW fiber laser cutting machine:

    Material Thickness Kerf Width
    Carbon Steel 2mm 0.3mm
    Stainless Steel 2mm 0.2mm
    Aluminum 2mm 0.25mm
    Brass 2mm 0.25mm
    Copper 2mm 0.3mm

    It is important to note that these are just general guidelines. The actual kerf width will depend on the specific machine and application.

    Tianchen Laser is a leading manufacturer of fiber laser cutting machines. With many years of R&D and production experience, our products have reliable quality and stable performance, and are deeply trusted by users. Tianchen Laser provides a variety of models of fiber laser cutting machines to meet the needs of different users.

    If you want to know more about fiber laser cutting machines, please contact Tianchen Laser.

  • Q What is the cutting accuracy of a fiber laser cutting machine?

    A

     

    Cutting Accuracy of a Fiber Laser Cutting Machine

    The cutting accuracy of a fiber laser cutting machine depends on a number of factors, including:

    • Laser power: Higher laser power results in a smaller kerf width, which improves the cutting accuracy.
    • Material type: Different materials have different cutting accuracies. For example, carbon steel can be cut with a higher accuracy than stainless steel.
    • Material thickness: Thicker materials require lower cutting accuracies.
    • Cutting quality: Higher cutting quality requires higher cutting accuracies.
    • Machine condition: A well-maintained machine will produce higher cutting accuracies than a poorly maintained machine.

    In general, fiber laser cutting machines can achieve a cutting accuracy of ±0.05mm to ±0.2mm. This means that the cut edge of the material will be within ±0.05mm to ±0.2mm of the desired position.

    The following table shows the cutting accuracies of different materials for a 1kW fiber laser cutting machine:

    Material Thickness Cutting Accuracy
    Carbon Steel 1mm ±0.05mm
    Stainless Steel 1mm ±0.1mm
    Aluminum 1mm ±0.05mm
    Brass 1mm ±0.05mm
    Copper 1mm ±0.05mm

    The following table shows the cutting accuracies of different materials for a 4kW fiber laser cutting machine:

    Material Thickness Cutting Accuracy
    Carbon Steel 2mm ±0.1mm
    Stainless Steel 2mm ±0.2mm
    Aluminum 2mm ±0.1mm
    Brass 2mm ±0.1mm
    Copper 2mm ±0.1mm

    It is important to note that these are just general guidelines. The actual cutting accuracy will depend on the specific machine and application.

    Tianchen Laser is a leading manufacturer of fiber laser cutting machines. With many years of R&D and production experience, our products have reliable quality and stable performance, and are deeply trusted by users. Tianchen Laser provides a variety of models of fiber laser cutting machines to meet the needs of different users.

    If you want to know more about fiber laser cutting machines, please contact Tianchen Laser.

     

    Tianchen Laser, your laser cutting expert!

  • Q What is the cutting speed of a fiber laser cutting machine?

    A

    Cutting Speed of a Fiber Laser Cutting Machine

    The cutting speed of a fiber laser cutting machine depends on a number of factors, including:

    • Laser power: Higher laser power results in faster cutting speeds.
    • Material type: Different materials have different cutting speeds. For example, carbon steel can be cut faster than stainless steel.
    • Material thickness: Thicker materials require slower cutting speeds.
    • Cutting quality: Higher cutting quality requires slower cutting speeds.
    • Machine condition: A well-maintained machine will produce faster cutting speeds than a poorly maintained machine.

    In general, fiber laser cutting machines can cut a wide range of materials at speeds ranging from a few meters per minute to hundreds of meters per minute. For example, a 1kW fiber laser cutting machine can cut 1mm thick carbon steel at a speed of up to 10 meters per minute. A 4kW fiber laser cutting machine can cut 2mm thick stainless steel at a speed of up to 5 meters per minute.

    The following table shows the cutting speeds of different materials for a 1kW fiber laser cutting machine:

    Material Thickness Cutting Speed
    Carbon Steel 1mm 10 meters per minute
    Stainless Steel 1mm 5 meters per minute
    Aluminum 1mm 15 meters per minute
    Brass 1mm 12 meters per minute
    Copper 1mm 10 meters per minute

    The following table shows the cutting speeds of different materials for a 4kW fiber laser cutting machine:

    Material Thickness Cutting Speed
    Carbon Steel 2mm 20 meters per minute
    Stainless Steel 2mm 10 meters per minute
    Aluminum 2mm 30 meters per minute
    Brass 2mm 24 meters per minute
    Copper 2mm 20 meters per minute

    It is important to note that these are just general guidelines. The actual cutting speed will depend on the specific machine and application.

    Tianchen Laser is a leading manufacturer of fiber laser cutting machines. With many years of R&D and production experience, our products have reliable quality and stable performance, and are deeply trusted by users. Tianchen Laser provides a variety of models of fiber laser cutting machines to meet the needs of different users.

    If you want to know more about fiber laser cutting machines, please contact Tianchen Laser.

     

    Tianchen Laser, your laser cutting expert!

  • Q How to Optimize the Parameters for Tube Cutting?

    A

    The parameters for tube cutting can be optimized to improve the quality of the cut, reduce the cost of cutting, and increase the productivity of the cutting process.

    Here are some tips on how to optimize the parameters for tube cutting:

    • Choose the right laser power. The laser power should be high enough to cut the tube cleanly, but not so high that it causes excessive heat distortion.
    • Choose the right cutting speed. The cutting speed should be fast enough to be efficient, but not so fast that it causes poor cut quality.
    • Choose the right focus position. The focus position should be adjusted according to the thickness of the tube wall.
    • Choose the right auxiliary gas. The auxiliary gas helps to remove the molten metal from the cutting area. The type and pressure of the auxiliary gas will affect the cutting quality.
    • Choose the right material properties. The type of tube material being cut will affect the cutting quality. Some metals, such as stainless steel, are more difficult to cut than others, such as carbon steel.
    • Choose the right machine condition. The condition of the fiber laser cutting machine will also affect the cutting quality. A well-maintained machine will produce better cutting quality than a poorly maintained machine.
    • Choose the right tube shape. The shape of the tube can also affect the cutting quality. Round tubes are the easiest to cut, while square and rectangular tubes are more difficult. Tubes with thin walls are also more difficult to cut than tubes with thick walls.
    • Choose the right tube diameter. The diameter of the tube can also affect the cutting quality. Smaller diameter tubes are more difficult to cut than larger diameter tubes.
    • Choose the right cutting angle. The cutting angle can also affect the cutting quality. The ideal cutting angle is 90 degrees, but this can be difficult to achieve in practice. A small deviation from the ideal cutting angle can result in a poor cut quality.
    • Choose the right piercing parameters. The piercing parameters, such as the laser power, cutting speed, and focus position, should be optimized to minimize piercing problems.
    • Choose the right cutting angle parameters. The cutting angle parameters, such as the laser power, cutting speed, and focus position, should be optimized to minimize cutting angle problems.
    • Choose the right parameters to avoid overheating. The cutting speed and laser power should be adjusted to avoid overheating.
    • Choose the right parameters to avoid tube damage. The cutting speed and laser power should be adjusted to avoid tube damage.
    • Choose the right parameters to achieve good cut quality. The laser power, cutting speed, focus position, and other parameters should be adjusted to achieve good cut quality.

    In addition to these general tips, there are also a number of specific tips that can be used to optimize the parameters for tube cutting for different types of tubes and different applications. For example, the cutting speed for thin-walled tubes should be slower than the cutting speed for thick-walled tubes.

    It is important to consult with a qualified supplier to determine the right parameters for your specific application. Tianchen Laser has a team of experienced engineers who can help you to optimize the parameters for your tube cutting application.

    Tianchen Laser is a leading manufacturer of fiber laser cutting machines. With many years of R&D and production experience, our products have reliable quality and stable performance, and are deeply trusted by users. Tianchen Laser provides a variety of models of fiber laser cutting machines to meet the needs of different users.

    If you want to know more about fiber laser cutting machines, please contact Tianchen Laser.

    Tianchen Laser, your laser cutting expert!

    Here are some additional tips on how to optimize the parameters for tube cutting:

    • Use a sharp cutting tool.
    • Use a lubricant.
    • Use a coolant.
    • Use a fume extractor.
    • Follow the manufacturer's instructions.
    • Get training from a qualified technician.

    By following these tips, you can help to optimize the parameters for tube cutting and improve the quality, cost, and productivity of your cutting process.

  • Q What are the common problems encountered in tube cutting and how to solve them?

    A

     

    Common Problems Encountered in Tube Cutting and How to Solve Them

    Tube cutting is a process that is used to cut tubes into various shapes and sizes. It is a common process in many industries, including the automotive, aerospace, and construction industries.

    There are a number of common problems that can be encountered in tube cutting. Some of the most common problems include:

    1. Burrs: Burrs are small, sharp edges that can be created on the cut edges of tubes. They can be a safety hazard and can also cause problems with the fit and finish of the final product. Burrs can be removed by deburring tools.

    2. Dross: Dross is a slag that can be formed on the cut edges of tubes. It can cause problems with the fit and finish of the final product. Dross can be removed by grinding or wire brushing.

    3. Heat distortion: Heat distortion is a problem that can occur when tubes are cut with a laser. It can cause the tube to warp or buckle. Heat distortion can be minimized by using a laser with a lower power output or by using a cutting fluid.

    4. Edge waviness: Edge waviness is a problem that can occur when tubes are cut with a plasma cutter. It can cause the cut edges to be wavy or uneven. Edge waviness can be minimized by using a plasma cutter with a higher power output or by using a cutting fluid.

    5. Slag inclusion: Slag inclusion is a problem that can occur when tubes are cut with a oxy-fuel torch. It can cause the cut edges to be contaminated with slag. Slag inclusion can be minimized by using a torch with a higher power output or by using a cutting fluid.

    6. Piercing problems: Piercing is the process of creating a hole in the tube. Piercing problems can occur if the laser power is too low, the cutting speed is too fast, or the focus position is not correct. Piercing problems can be minimized by using a higher laser power, a slower cutting speed, and a correct focus position.

    7. Cutting angle problems: The cutting angle is the angle at which the laser cuts the tube. Cutting angle problems can occur if the laser is not aligned properly or if the tube is not held in place securely. Cutting angle problems can be minimized by aligning the laser properly and securing the tube in place.

    8. Overheating: Overheating can occur if the cutting speed is too slow or if the laser power is too high. Overheating can cause the tube to warp or buckle. Overheating can be minimized by using a faster cutting speed or a lower laser power.

    9. Tube damage: Tube damage can occur if the laser power is too high or if the cutting speed is too fast. Tube damage can be minimized by using a lower laser power or a slower cutting speed.

    10. Poor cut quality: Poor cut quality can occur if the laser is not aligned properly, the cutting speed is not correct, or the focus position is not correct. Poor cut quality can be minimized by aligning the laser properly, using a correct cutting speed, and using a correct focus position.

    These are just a few of the common problems that can be encountered in tube cutting. By understanding these problems and how to solve them, you can help to ensure that your tube cutting projects are successful.

    Tianchen Laser is a leading manufacturer of fiber laser cutting machines. With many years of R&D and production experience, our products have reliable quality and stable performance, and are deeply trusted by users. Tianchen Laser provides a variety of models of fiber laser cutting machines to meet the needs of different users.

    If you want to know more about fiber laser cutting machines, please contact Tianchen Laser.

    Tianchen Laser, your laser cutting expert!

    Here are some additional tips on how to solve the common problems encountered in tube cutting:

    • Use a sharp cutting tool.
    • Use a lubricant.
    • Use a coolant.
    • Use a fume extractor.
    • Follow the manufacturer's instructions.
    • Get training from a qualified technician.

    By following these tips, you can help to solve the common problems encountered in tube cutting and improve the quality of your cuts.

  • Q What are the factors that affect the quality of tube cutting?

    A

    Factors Affecting the Quality of Tube Cutting

    The quality of tube cutting is affected by a number of factors, including:

    1. Laser power:

    • Higher laser power results in faster cutting speeds and deeper penetration.
    • Lower laser power results in slower cutting speeds and shallower penetration.

    2. Cutting speed:

    • Higher cutting speeds result in lower cutting quality.
    • Lower cutting speeds result in higher cutting quality.

    3. Focus position:

    • The focus position should be adjusted according to the thickness of the tube wall.
    • If the focus position is too high, the cutting quality will be poor.
    • If the focus position is too low, the nozzle will be damaged.

    4. Auxiliary gas:

    • The auxiliary gas helps to remove the molten metal from the cutting area.
    • The type and pressure of the auxiliary gas will affect the cutting quality.

    5. Material properties:

    • The type of tube material being cut will affect the cutting quality.
    • Some metals, such as stainless steel, are more difficult to cut than others, such as carbon steel.

    6. Machine condition:

    • The condition of the fiber laser cutting machine will also affect the cutting quality.
    • A well-maintained machine will produce better cutting quality than a poorly maintained machine.

    7. Tube shape:

    • The shape of the tube can also affect the cutting quality.
    • Round tubes are the easiest to cut, while square and rectangular tubes are more difficult.
    • Tubes with thin walls are also more difficult to cut than tubes with thick walls.

    8. Tube diameter:

    • The diameter of the tube can also affect the cutting quality.
    • Smaller diameter tubes are more difficult to cut than larger diameter tubes.

    9. Cutting angle:

    • The cutting angle can also affect the cutting quality.
    • The ideal cutting angle is 90 degrees, but this can be difficult to achieve in practice.
    • A small deviation from the ideal cutting angle can result in a poor cut quality.

    10. Piercing:

    • Piercing is the process of creating a hole in the tube.
    • The piercing process can affect the cutting quality.
    • A poor piercing process can result in a poor cut quality.

    Tianchen Laser is a leading manufacturer of fiber laser cutting machines. With many years of R&D and production experience, our products have reliable quality and stable performance, and are deeply trusted by users. Tianchen Laser provides a variety of models of fiber laser cutting machines to meet the needs of different users.

    If you want to know more about fiber laser cutting machines, please contact Tianchen Laser.

    Tianchen Laser, your laser cutting expert!

    Here are some additional tips on how to improve the quality of tube cutting:

    • Use a sharp cutting tool.
    • Use a lubricant.
    • Use a coolant.
    • Use a fume extractor.
    • Follow the manufacturer's instructions.
    • Get training from a qualified technician.

    By following these tips, you can help to improve the quality of your tube cutting and get the best results from your fiber laser cutting machine.

  • Q What are the different types of tubes that can be cut with a fiber laser cutting machine?

    A

    Types of Tubes That Can Be Cut with a Fiber Laser Cutting Machine

    Fiber laser cutting machines are versatile tools that can be used to cut a variety of tubes, including:

    • Round tubes: Round tubes are the most common type of tube and can be used in a variety of applications, such as structural supports, piping, and fluid lines.
    • Square tubes: Square tubes are often used in construction and manufacturing for their strength and durability.
    • Rectangular tubes: Rectangular tubes are similar to square tubes, but they have a wider profile. They are often used in applications where strength and weight are important, such as in the automotive industry.
    • Oval tubes: Oval tubes are often used in decorative applications, such as furniture and railings. They can also be used in structural applications where a curved profile is desired.
    • Hexagonal tubes: Hexagonal tubes are often used in applications where strength and weight are important, such as in the aerospace industry.
    • Triangular tubes: Triangular tubes are often used in applications where a lightweight and strong structure is needed, such as in the construction industry.

    In addition to these common types of tubes, fiber laser cutting machines can also be used to cut a variety of other shapes, including:

    • Channels: Channels are U-shaped profiles that are often used in construction and manufacturing.
    • Angles: Angles are L-shaped profiles that are often used in construction and manufacturing.
    • I-beams: I-beams are H-shaped profiles that are often used in construction and manufacturing.
    • T-beams: T-beams are T-shaped profiles that are often used in construction and manufacturing.

    The type of tube that can be cut with a fiber laser cutting machine depends on the power of the laser and the thickness of the tube. For example, a low-power fiber laser cutting machine may only be able to cut thin-walled round tubes, while a high-power fiber laser cutting machine may be able to cut thick-walled square tubes.

    Fiber laser cutting machines are a versatile and powerful tool that can be used to cut a variety of tubes. If you are considering using a fiber laser cutting machine for your application, it is important to consult with a qualified supplier to determine the right machine for your needs.

    Tianchen Laser is a leading manufacturer of fiber laser cutting machines. With many years of R&D and production experience, our products have reliable quality and stable performance, and are deeply trusted by users. Tianchen Laser provides a variety of models of fiber laser cutting machines to meet the needs of different users.

    If you want to know more about fiber laser cutting machines, please contact Tianchen Laser.

     

    Tianchen Laser, your laser cutting expert!

  • Q How to optimize the parameters for metal sheet cutting?

    A

    The parameters for metal sheet cutting can be optimized to improve the quality of the cut, reduce the cost of cutting, and increase the productivity of the cutting process.

    Here are some tips on how to optimize the parameters for metal sheet cutting:

    • Choose the right laser power. The laser power should be high enough to cut the metal sheet cleanly, but not so high that it causes excessive heat distortion.
    • Choose the right cutting speed. The cutting speed should be fast enough to be efficient, but not so fast that it causes poor cut quality.
    • Choose the right focus position. The focus position should be adjusted according to the thickness of the metal sheet.
    • Choose the right auxiliary gas. The auxiliary gas helps to remove the molten metal from the cutting area. The type and pressure of the auxiliary gas will affect the cutting quality.
    • Choose the right material properties. The type of metal sheet being cut will affect the cutting quality. Some metals, such as stainless steel, are more difficult to cut than others, such as carbon steel.
    • Choose the right machine condition. The condition of the fiber laser cutting machine will also affect the cutting quality. A well-maintained machine will produce better cutting quality than a poorly maintained machine.

    Tianchen Laser is a leading manufacturer of fiber laser cutting machines. With many years of R&D and production experience, our products have reliable quality and stable performance, and are deeply trusted by users. Tianchen Laser provides a variety of models of fiber laser cutting machines to meet the needs of different users.

    If you want to know more about fiber laser cutting machines, please contact Tianchen Laser.

    Tianchen Laser, your laser cutting expert!

    Here are some additional tips on how to optimize the parameters for metal sheet cutting:

    • Use a cutting table with a good surface finish. A good surface finish will help to reduce the amount of burrs and dross that is created during the cutting process.
    • Use a sharp cutting tool. A sharp cutting tool will help to produce a clean cut with minimal burrs and dross.
    • Use a lubricant. A lubricant can help to reduce friction and heat, which can improve the cut quality and extend the life of the cutting tool.
    • Use a coolant. A coolant can help to remove heat from the cutting area, which can improve the cut quality and reduce the amount of burrs and dross that is created.
    • Use a fume extractor. A fume extractor can help to remove fumes and dust from the cutting area, which can improve the air quality and reduce the risk of health problems.

    By following these tips, you can help to optimize the parameters for metal sheet cutting and improve the quality, cost, and productivity of your cutting process.

  • Q What are the common problems encountered in metal sheet cutting and how to solve them?

    A

    Common Problems Encountered in Metal Sheet Cutting and How to Solve Them

    Metal sheet cutting is a process that is used to cut metal sheets into various shapes and sizes. It is a common process in many industries, including the automotive, aerospace, and construction industries.

    There are a number of common problems that can be encountered in metal sheet cutting. Some of the most common problems include:

    • Burrs: Burrs are small, sharp edges that can be created on the cut edges of metal sheets. They can be a safety hazard and can also cause problems with the fit and finish of the final product. Burrs can be removed by deburring tools.

    • Dross: Dross is a slag that can be formed on the cut edges of metal sheets. It can cause problems with the fit and finish of the final product. Dross can be removed by grinding or wire brushing.

    • Heat distortion: Heat distortion is a problem that can occur when metal sheets are cut with a laser. It can cause the metal to warp or buckle. Heat distortion can be minimized by using a laser with a lower power output or by using a cutting fluid.

    • Edge waviness: Edge waviness is a problem that can occur when metal sheets are cut with a plasma cutter. It can cause the cut edges to be wavy or uneven. Edge waviness can be minimized by using a plasma cutter with a higher power output or by using a cutting fluid.

    • Slag inclusion: Slag inclusion is a problem that can occur when metal sheets are cut with a oxy-fuel torch. It can cause the cut edges to be contaminated with slag. Slag inclusion can be minimized by using a torch with a higher power output or by using a cutting fluid.

    These are just a few of the common problems that can be encountered in metal sheet cutting. By understanding these problems and how to solve them, you can help to ensure that your metal sheet cutting projects are successful.

    Tianchen Laser is a leading manufacturer of fiber laser cutting machines. With many years of R&D and production experience, our products have reliable quality and stable performance, and are deeply trusted by users. Tianchen Laser provides a variety of models of fiber laser cutting machines to meet the needs of different users.

    If you want to know more about fiber laser cutting machines, please contact Tianchen Laser.

    Tianchen Laser, your laser cutting expert!

  • Q What are the factors that affect the quality of metal sheet cutting?

    A

    Factors Affecting the Quality of Metal Sheet Cutting

    The quality of metal sheet cutting is affected by a number of factors, including:

    1. Laser power:

    • Higher laser power results in faster cutting speeds and deeper penetration.
    • Lower laser power results in slower cutting speeds and shallower penetration.

    2. Cutting speed:

    • Higher cutting speeds result in lower cutting quality.
    • Lower cutting speeds result in higher cutting quality.

    3. Focus position:

    • The focus position should be adjusted according to the thickness of the metal sheet.
    • If the focus position is too high, the cutting quality will be poor.
    • If the focus position is too low, the nozzle will be damaged.

    4. Auxiliary gas:

    • The auxiliary gas helps to remove the molten metal from the cutting area.
    • The type and pressure of the auxiliary gas will affect the cutting quality.

    5. Material properties:

    • The type of metal sheet being cut will affect the cutting quality.
    • Some metals, such as stainless steel, are more difficult to cut than others, such as carbon steel.

    6. Machine condition:

    • The condition of the fiber laser cutting machine will also affect the cutting quality.
    • A well-maintained machine will produce better cutting quality than a poorly maintained machine.

    Tianchen Laser is a leading manufacturer of fiber laser cutting machines. With many years of R&D and production experience, our products have reliable quality and stable performance, and are deeply trusted by users. Tianchen Laser provides a variety of models of fiber laser cutting machines to meet the needs of different users.

    If you want to know more about fiber laser cutting machines, please contact Tianchen Laser.

    Tianchen Laser, your laser cutting expert!

  • Q What are the different types of metal sheets that can be cut with a fiber laser cutting machine?

    A

    Types of Metal Sheets That Can Be Cut with a Fiber Laser Cutting Machine

    Fiber laser cutting machines are versatile tools that can be used to cut a variety of metal sheets. Some of the most common types of metal sheets that can be cut with a fiber laser cutting machine include:

    • Stainless steel: Stainless steel is a popular choice for fiber laser cutting due to its corrosion resistance and strength. It is commonly used in a variety of applications, including food processing, medical equipment, and automotive parts.
    • Carbon steel: Carbon steel is another common choice for fiber laser cutting. It is less expensive than stainless steel and is often used in construction, machinery, and tools.
    • Aluminum: Aluminum is a lightweight metal that is often used in aerospace, automotive, and electronics applications. It is also commonly used in food and beverage packaging.
    • Brass: Brass is a copper-based alloy that is often used in decorative applications, such as plumbing fixtures and jewelry. It is also used in musical instruments and electrical components.
    • Copper: Copper is a highly conductive metal that is often used in electrical wiring and plumbing. It is also used in heat sinks and other applications where high thermal conductivity is required.

    In addition to these common metals, fiber laser cutting machines can also be used to cut a variety of other metals, including:

    • Titanium: Titanium is a strong, lightweight metal that is often used in aerospace and medical applications.
    • Inconel: Inconel is a nickel-based alloy that is resistant to corrosion and high temperatures. It is often used in aerospace, chemical processing, and nuclear power applications.
    • Hastelloy: Hastelloy is a nickel-based alloy that is resistant to corrosion and high temperatures. It is often used in chemical processing, aerospace, and nuclear power applications.

    The type of metal sheet that can be cut with a fiber laser cutting machine depends on the power of the laser and the thickness of the metal sheet. For example, a low-power fiber laser cutting machine may only be able to cut thin sheets of stainless steel, while a high-power fiber laser cutting machine may be able to cut thick sheets of titanium.

    Fiber laser cutting machines are a versatile and powerful tool that can be used to cut a variety of metal sheets. If you are considering using a fiber laser cutting machine for your application, it is important to consult with a qualified supplier to determine the right machine for your needs.

    Tianchen Laser is a leading manufacturer of fiber laser cutting machines. With many years of R&D and production experience, our products have reliable quality and stable performance, and are deeply trusted by users. Tianchen Laser provides a variety of models of fiber laser cutting machines to meet the needs of different users.

    If you want to know more about fiber laser cutting machines, please contact Tianchen Laser.

    Tianchen Laser, your laser cutting expert!

  • Q What are the safety precautions for using a fiber laser cutting machine?

    A

    Safety Precautions for Using a Fiber Laser Cutting Machine

    Fiber laser cutting machines are powerful tools that can be used to cut a variety of materials. However, they can also be dangerous if not used properly. Here are some safety precautions to follow when using a fiber laser cutting machine:

    • Wear eye protection. The laser beam emitted by a fiber laser cutting machine can be harmful to the eyes. Always wear safety glasses or goggles with the appropriate laser protection rating when operating the machine.
    • Wear protective clothing. The laser beam can also cause skin burns. Wear protective clothing, such as a long-sleeved shirt, pants, and closed-toe shoes, when operating the machine.
    • Keep the area clear. The laser beam can also start fires. Keep the area around the machine clear of flammable materials.
    • Be aware of the hazards. Before operating a fiber laser cutting machine, it is important to be aware of the potential hazards. Read the manufacturer's instructions carefully and follow all safety precautions.

    By following these safety precautions, you can help to prevent accidents and injuries when using a fiber laser cutting machine.

    Here are some additional safety precautions to follow:

    • Never look directly into the laser beam.
    • Never point the laser beam at anyone or anything that you do not want to cut.
    • Do not operate the machine if it is damaged.
    • Do not operate the machine if you are tired or under the influence of drugs or alcohol.
    • Keep children and pets away from the machine.

    By following these safety precautions, you can help to ensure the safe operation of a fiber laser cutting machine.

  • Q How to maintain a fiber laser cutting machine?

    A

     

    To maintain a fiber laser cutting machine in good condition and prolong its service life, it is important to perform regular maintenance. Here are some tips:

    Daily maintenance:

    • Clean the cutting head and nozzle regularly to remove dust and debris.
    • Check the water level in the chiller and add water if necessary.
    • Inspect the machine for any signs of damage or wear.
    • Lubricate the moving parts of the machine.

    Weekly maintenance:

    • Clean the laser source and optical components.
    • Check the alignment of the laser beam.
    • Calibrate the cutting head.
    • Replace any consumables that are worn or damaged.

    Monthly maintenance:

    • Perform a comprehensive inspection of the machine.
    • Check the electrical connections and wiring.
    • Clean the dust and debris from the machine.
    • Perform any necessary repairs or adjustments.

    By following these tips, you can help to ensure that your fiber laser cutting machine will operate reliably and efficiently for many years to come.

    Here are some additional tips for maintaining a fiber laser cutting machine:

    • Use high-quality consumables. Using high-quality consumables can help to improve the cutting quality and extend the life of the machine.
    • Follow the manufacturer's instructions. The manufacturer's instructions will provide specific information on how to maintain your machine.
    • Keep the machine clean. A clean machine will operate more efficiently and last longer.
    • Train your operators. Proper training will help your operators to use the machine safely and effectively.
    • Have a regular maintenance schedule. A regular maintenance schedule will help to ensure that your machine is properly maintained.

    By following these tips, you can help to ensure that your fiber laser cutting machine will operate reliably and efficiently for many years to come.

  • Q How to choose a fiber laser cutting machine?

    A

    Here are some factors to consider when choosing a fiber laser cutting machine:

    1. Power:

    • Low power (1000W-3000W): Suitable for thin sheet metal cutting, such as stainless steel, carbon steel, and aluminum alloy.
    • Medium power (3000W-6000W): Suitable for medium-thickness sheet metal cutting, such as stainless steel, carbon steel, and aluminum alloy.
    • High power (6000W and above): Suitable for thick sheet metal cutting, such as stainless steel, carbon steel, and aluminum alloy.

    2. Bed size:

    • Small bed size (1500mm x 3000mm): Suitable for small workpieces.
    • Medium bed size (3000mm x 6000mm): Suitable for medium-sized workpieces.
    • Large bed size (6000mm x 12000mm): Suitable for large workpieces.

    3. Gantry type:

    • Open gantry: The gantry is not enclosed, which provides better access to the cutting area.
    • Closed gantry: The gantry is enclosed, which provides better dust and fume control.

    4. Laser source:

    • Single-mode fiber laser: Provides high beam quality and cutting precision.
    • Multi-mode fiber laser: Provides higher cutting speed and efficiency.

    5. Table type:

    • Exchange table: The table can be exchanged, which is suitable for cutting different types of materials.
    • Shuttle table: The table can be moved back and forth, which is suitable for cutting large workpieces.

    6. Other factors:

    • Brand: The price of a fiber laser cutting machine can vary depending on the brand.
    • Features: The price of a fiber laser cutting machine can vary depending on the features included.
    • Warranty: The price of a fiber laser cutting machine can vary depending on the warranty included.

    Tianchen Laser offers a variety of fiber laser cutting machines to meet the needs of different users. Our machines are available in a variety of power levels, bed sizes, gantry types, laser sources, and table types.

    Here are some tips for choosing the right fiber laser cutting machine:

    • Consider your application. What type of material will you be cutting? What is the thickness of the material? What is the size of the workpieces?
    • Set a budget. Fiber laser cutting machines can range in price from \$20,000 to \$200,000.
    • Do your research. Read reviews and compare different models.
    • Talk to a supplier. A supplier can help you choose the right machine for your needs.

    Tianchen Laser is a leading manufacturer of fiber laser cutting machines. With many years of R&D and production experience, our products have reliable quality and stable performance, and are deeply trusted by users. Tianchen Laser provides a variety of models of fiber laser cutting machines to meet the needs of different users.

    If you want to know more about fiber laser cutting machines, please contact Tianchen Laser.

    Tianchen Laser, your laser cutting expert!

  • Q What is the price of a fiber laser cutting machine?

    A

     

    The price of a fiber laser cutting machine depends on the following factors:

    Power:

    • Low power (1000W-3000W): The price of a low-power fiber laser cutting machine is typically between \$20,000 and \$50,000.
    • Medium power (3000W-6000W): The price of a medium-power fiber laser cutting machine is typically between \$50,000 and \$100,000.
    • High power (6000W and above): The price of a high-power fiber laser cutting machine is typically between \$100,000 and \$200,000.

    Bed size:

    • Small bed size (1500mm x 3000mm): The price of a small bed size fiber laser cutting machine is typically between \$20,000 and \$50,000.
    • Medium bed size (3000mm x 6000mm): The price of a medium bed size fiber laser cutting machine is typically between \$50,000 and \$100,000.
    • Large bed size (6000mm x 12000mm): The price of a large bed size fiber laser cutting machine is typically between \$100,000 and \$200,000.

    Gantry type:

    • Open gantry: The price of an open gantry fiber laser cutting machine is typically between \$20,000 and \$50,000.
    • Closed gantry: The price of a closed gantry fiber laser cutting machine is typically between \$50,000 and \$100,000.

    Laser source:

    • Single-mode fiber laser: The price of a single-mode fiber laser cutting machine is typically between \$50,000 and \$100,000.
    • Multi-mode fiber laser: The price of a multi-mode fiber laser cutting machine is typically between \$20,000 and \$50,000.

    Table type:

    • Exchange table: The price of an exchange table fiber laser cutting machine is typically between \$20,000 and \$50,000.
    • Shuttle table: The price of a shuttle table fiber laser cutting machine is typically between \$50,000 and \$100,000.

    Other factors:

    • Brand: The price of a fiber laser cutting machine can vary depending on the brand.
    • Features: The price of a fiber laser cutting machine can vary depending on the features included.
    • Warranty: The price of a fiber laser cutting machine can vary depending on the warranty included.

    Tianchen Laser offers a variety of fiber laser cutting machines to meet the needs of different users. Our machines are available in a variety of power levels, bed sizes, gantry types, laser sources, and table types.

    If you want to know more about fiber laser cutting machines, please contact Tianchen Laser.

    Tianchen Laser, your laser cutting expert!

    Additional Information:

    • The prices listed above are for reference only. The actual price may vary depending on the specific configuration and options.
    • Tianchen Laser can provide customized solutions to meet the specific needs of customers.
  • Q What are the applications of fiber laser cutting machines?

    A

    Fiber laser cutting machines are widely used in various industries, including:

    • Sheet metal processing: Fiber laser cutting machines are ideal for cutting sheet metal, such as stainless steel, carbon steel, and aluminum alloy. They can be used to cut a variety of shapes and sizes, and can achieve high cutting accuracy and quality.
    • Mechanical manufacturing: Fiber laser cutting machines are used in the mechanical manufacturing industry to cut a variety of parts, such as gears, shafts, and housings. They can also be used to cut molds and dies.
    • Electronic components: Fiber laser cutting machines are used in the electronic components industry to cut a variety of materials, such as printed circuit boards (PCBs), semiconductors, and metal enclosures. They can achieve high cutting precision and quality, and can minimize damage to the delicate circuitry.
    • Automobile manufacturing: Fiber laser cutting machines are used in the automobile manufacturing industry to cut a variety of parts, such as body panels, chassis, and engine components. They can achieve high cutting speed and efficiency, and can meet the strict quality requirements of the automotive industry.
    • Aerospace: Fiber laser cutting machines are used in the aerospace industry to cut a variety of materials, such as aircraft skin, frames, and engine components. They can achieve high cutting precision and quality, and can meet the strict quality requirements of the aerospace industry.
    • Shipbuilding: Fiber laser cutting machines are used in the shipbuilding industry to cut a variety of materials, such as ship hulls, decks, and superstructures. They can achieve high cutting speed and efficiency, and can meet the strict quality requirements of the shipbuilding industry.
    • Hardware tools: Fiber laser cutting machines are used in the hardware tools industry to cut a variety of tools, such as saws, wrenches, and pliers. They can achieve high cutting precision and quality, and can meet the strict quality requirements of the hardware tools industry.
    • Mold manufacturing: Fiber laser cutting machines are used in the mold manufacturing industry to cut a variety of molds, such as plastic molds, metal molds, and rubber molds. They can achieve high cutting precision and quality, and can meet the strict quality requirements of the mold manufacturing industry.
    • Medical devices: Fiber laser cutting machines are used in the medical device industry to cut a variety of materials, such as surgical instruments, implants, and prosthetics. They can achieve high cutting precision and quality, and can meet the strict quality requirements of the medical device industry.

    Tianchen Laser offers a variety of fiber laser cutting machines to meet the needs of different users. Our machines are available in a variety of power levels, bed sizes, gantry types, laser sources, and table types.

    If you want to know more about fiber laser cutting machines, please contact Tianchen Laser.

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