3D Laser Machine

What is 3D Laser Machine

A 3D laser machine is a type of equipment that uses laser technology to cut, engrave, and mark objects in three dimensions. It works by focusing a high-power laser beam on a surface to create intricate designs and patterns with precision and accuracy. Its applications range from creating prototypes, architectural models, jewelry, and personalized gifts to industrial cutting and engraving of metals, plastics, and other materials.

Product Advantages 3D Laser Machine

Capable Of More Than Straight Cuts

Our 3D Laser Machine three-dimensional rotating head can cut with accuracy and ease around and through the radius of a piece of tube. Getting the same results with traditional cutting equipment is impossible.

Multiple Process In One Step

Our 3D tube laser can score, bevel, chamfer and perform other processes in a single pass. It can also countersink holes as it’s cutting.

Makes Parts Assembly-Ready

With our 3D tube laser cutting equipment, we can create tabs, holes, and grooves as we cut your parts so that the cut stock can be assembled by bending it into shape. This eliminates the need to build a complicated jig to join separate pieces into one final part. You get self-aligned parts that are perfect every time!

Speed And Cost-Effectiveness

3D tube laser cutting services deliver speed and accuracy to meet your deadlines and quality requirements. Our skilled designers and technicians have expert training and experience to maximize the yield of raw materials and create parts ultra-efficiently. You will be thrilled with the time and money you save!

Why Choose Us?

After Sales Service

And more than 30 global offices to provide clients with comprehensive solutions and after-sales service.

Official Certification

Since founded, Lead Laser focus on resources integration for technology, product, application, market and capital., Approves ISO9001 and CE quality certificate, Owns proprietary intellectual property rights.

Production Market

June15th , 2018. Lead Laser reached strategic cooperation with Italian Prima power as the leader of global automation, 3D laser technology. to realize "digitization, network, intelligence and automation" for products and services.

Sustainable Development

In further to international competitive and become global famous enterprise in laser. environmental protection and low consumption" as the guide of development and manufacture, and reduce cost with increase production efficiency, to create economic benefits and value for customer.

Range Of 3D Laser Cutting Applications

3D laser cutting applications broadly include the use of sheet metals and its various implementations. Industries that utilize 3D laser cutting include:

Aerospace
Textiles
Medical equipment
Kitchenware
Elevator
Automobiles
Mechanical tools
Food processing

2D VS 3D PRinting: Key Differences

The primary difference between 2D laser cutting and 3D laser cutting is that a 3D cutter can forge vertically.

However, many ask how 3D printing compares to these two types of laser cutting. Simply put, laser cutters remove material layer by layer, while 3D printers create materials layer by layer. This makes a big difference in the overall production time of each project. Because many 3D printing projects are built more narrow than 3D cutting projects, oftentimes, their components must be cut and adhered to the project's surface.

3D printers construct their fabrications by fusing powders made of the desired materials and building components from the bottom up. On the other hand, laser cutters use CO2 or solid-state lasers to melt away their workpiece materials. This fundamental difference has a significant impact on manufacturing cost. It is more expensive to obtain the metal powder necessary for a 3D printer than the sheet metal used by a laser cutter. Further, the workbed of 2D and 3D laser cutters can be vastly larger than the work surface of 3D laser printers, so they have a more comprehensive range of applications.

3D Laser Cutting Services

Compared to traditional cutting methods like drilling and sawing, 3D laser cutting gives you quicker and more precise results with greater efficiency. When you choose our 3D laser cutting services, you can count on:
Expanded capacity. Our lasers go up to 8” square or 10” round, while most structural lasers are limited to 5.5” square or round. We can also handle stock up to 26’ long.
Unique capabilities. Our high-performance lasers have unique capabilities, such as cutting tabs and slots on adjoining parts for jigless assembly.
Deep cuts. Our lasers offer robust cutting performance with the ability to cut as deep as 3/4″ into steel.
Repeatability. Once we’ve programmed our equipment and produced an item for you, we can re-run your projects quickly and easily.
Excellent coverage. Most laser heads move along two axes - vertical and perpendicular. Our six-axis rotary-head laser can also move longitudinally, and we can vary the approach by rotating the head a full 360 degrees. This method is ideal for countersinking, beveling and other forms of specialized precision metal cutting.
3D Laser Machine - Discover the performance
The development of 3D laser-cutting machines has significantly reduced the processing time for many applications that are cut with traditional technologies. Six axes, including a rotary tube chuck, enable laser-cutting for a wide range of applications including structural shapes, spun parts, tubes, formed parts, bevel cutting of flat components and other high-value laser cut parts.

Many of these machines have the additional capability of cutting flat workpieces for greater flexibility and provide more possibilities for meeting fabrication and manufacturing needs. Many of 3D laser-cutting systems integrate intelligent machine functions which include intelligent monitoring, setup and cutting functions. These automated functions improve ease of operation and machine efficiency.

How to maintain 3D Laser Machine

Regular Cleanings

Regularly clean and maintain your 3D laser machine by wiping and lubricating the metal parts with an appropriate cleaning solution. This will prevent dust and debris from collecting on the machine and causing damage.

Lubricate

Lubricate moving parts such as rails, bearings, and gears regularly to ensure they are running smoothly and extend the life of your 3D laser machine.

Check the Optics

Check the optics inside your machine frequently, as dirt and dust can easily clog up the mirrors. Regular cleaning is essential to ensure the laser beam is focused and performs at its best.

Check the Water Cooling System

The water cooling system is the lifeblood of a 3D laser machine. Ensure it’s running efficiently and check for leaks regularly if you rely on a water cooling system.

Keep the Work Area Tidy

Make sure your work area is clean and organized. Debris can easily fall into the machine, causing problems in your 3D laser machine.

Follow the manufacturer's guidelines

It's important to read the user manual and follow the manufacturer's guidelines for maintenance and repairs. This ensures that the machine is properly maintained and avoids voiding any warranties.

How Does a 3d Laser Machine Work

A 3D laser machine, also known as a laser cutter or laser engraver, works by directing a high-powered laser beam onto a material to cut or engrave it. The laser beam, generated by a carbon dioxide laser tube, contains high levels of energy that vaporize the material, leaving a precise cut or engraved mark.

The machine is controlled by a computer that runs a specialized design software. The user creates a digital design on the software, which is then translated into a set of machine instructions that guide the laser beam's movements. The laser head moves along the X, Y, and Z axes, accurately positioning itself based on the design input.

The laser beam is emitted through the machine's nozzle, which can be focused to as small as 0.1 millimeters in diameter, allowing for extremely precise cuts and engravings. The intensity and speed of the laser beam can also be adjusted to suit different materials, ensuring the optimum result for the chosen material.

This type of technology is used in various industries, such as manufacturing, architecture, and design, to create highly detailed and complex designs. It can work on materials such as wood, metal, plastic, leather, and acrylic, making it a versatile tool.

What Software Is Needed To Operate a 3d Laser Machine

To operate a 3D laser machine, several software programs are required, which include:

CAD Software

This software is necessary to design and create 3D models that can be used as input for the laser machine. CAD software can be AutoCAD, SolidWorks, CATIA, or any other 3D modeling software.

CAM Software

CAM software is used to convert the CAD model into a format that can be read by the laser machine. CAM software creates toolpaths for the laser machine to follow while cutting the material. Common CAM software includes Mastercam, CAMWorks, and Edgecam.

Control Software

Control software is installed on the CNC controller of the laser machine. This software controls the movement of the machine, including the laser position, laser intensity, and Z-axis height. Laser machine control software includes Mach3, EMC2, and GRBL.

Post-Processing Software

Post-processing software is used to add finishing touches to the final 3D model. This may include smoothing of surfaces, scaling, and adjusting the thickness of the model. Post-processing software includes MeshLab, Blender, and Rhino.

How to use 3D laser Machine

A 3D laser machine is essentially a precision cutting and engraving tool that can create incredibly intricate designs on a wide variety of materials. The basic steps for using a 3D laser machine are as follows:

01/

Prepare Your Design
Using software such as Adobe Illustrator or AutoCAD, create your design in a 3D format and upload it to the machine. The design must be in vector format, so that the 3D laser machine can read and interpret it accurately.

02/

Select Your Material
The 3D laser machine is capable of cutting and engraving a wide range of materials, including wood, metal, glass, and plastic. Make sure that the material you select is appropriate for the design you are creating.

03/

Set Up the Machine
The 3D laser machine needs to be calibrated before it can begin cutting or engraving. Adjust the height of the laser, and set the depth and speed of the cut according to the material being used.

04/

Load the Material
Secure your material to the bed of the 3D laser machine. This will ensure that it remains steady and doesn’t move during the cutting or engraving process.

05/

Start the Machine
Once the material is secured and the machine is calibrated, you can begin the cutting or engraving process. The machine will use a high-powered laser to cut or engrave the design into the material, creating a precise and intricate pattern.

06/

Remove Your Finished Product
Once the machine has completed the cutting or engraving process, carefully remove the material from the bed of the machine. You may need to remove any excess material using a chisel or sandpaper, depending on the design you created and the material you used.

Our Certifications

Our Factory

Since founded, Lead Laser focus on resources integration for technology, product, application, market and capital. Approves ISO9001 and CE quality certificate, Owns proprietary intellectual property rights, Obtains hundreds of invention patents. Advocates the development concept of "Keep Ahead On The Tech and Create The Future Together", and the business philosophy of "honesty, efficiency, cooperation, creativity". Stick to "high speed, accuracy and efficiency, environmental protection and low consumption" as the guide of development and manufacture, and reduce cost with increase production efficiency, to create economic benefits and value for customer

FAQ

Q: What is 3D laser cutting machine?

A: 3D laser cutting takes advantage of the flexibility of the laser tool and applies it to complex three-dimensional parts that can be processed thanks to highly technological multi-axis machines.

Q: What can you do with a 3D laser printer?

A: 3D laser printer uses various materials (such as plastic, wax, SLA resin, metal, etc.) to print 3D objects in layers. For example, consider prototypes (such as molds), scaled models (such as buildings, prosthetics, and dental products). You design using CAD (Computer Aided Design) software.

Q: What is the difference between a laser cutter and a laser engraver?

A: Laser engravers and laser cutters are basically the same machine. Trotec laser machines, like most lasers, can engrave as well as cut. They are just called laser cutters or laser engravers based on what their main use is. If the laser is largely used for cutting, it is usually referred to as a laser cutter.

Q: Can a laser cutter cut through plastic?

A: How you can use a laser machine to cut plastic. With the laser machine you can process a variety of plastics such as PMMA acrylic, polycarbonate, ABS, polypropylene, Delrin, polyamide, POM, polyester or polyethylene. With laser cutting, you can manufacture components without contact and therefore wear-free.

Q: What is 3D laser technology?

A: 3D Laser Scanning is a non-contact, non-destructive technology that digitally captures the shape of physical objects using a line of laser light. 3D laser scanners create “point clouds” of data from the surface of an object.

Q: What is a 3D cutter used for?

A: 3D laser cutting machines are useful for cutting custom shapes for tubes, pipes, and other industrial materials. 3D cutting helps provide flexibility in the production process for metal or steel fabricators. It's a useful tool for making round holes or angled edges on metal surfaces.

Q: What lasers are used for 3D printing?

A: The technique is also called selective laser melting. Suitable lasers for processing metals are e.g. pulsed fiber lasers and other solid-state lasers. One usually requires an inert gas like nitrogen or argon for protecting the metal against oxidation. Instead of laser melting, one may employ laser sintering.

Q: What is the difference between laser machine and 3D printer?

A: The choice of a laser cutter vs 3D printer depends mainly on the type of objects you want to produce. In general, laser cutters are best for making flat, angular objects with intricate surface details, and 3D printers are best for creating small irregular components or solid objects.

Q: Why are laser cutters expensive?

A: Laser Power: As the rated power of the laser beam increases, the cost of the components to handle the higher energy levels increases. Workpiece Thickness: Cutting thicker material requires higher-power lasers. High-power lasers require heavier-duty components and are more expensive than low-power machines.

Q: What is the difference between 2D and 3D laser cutting?

A: Unlike 2D laser cutting, which allows shapes to be obtained from flat sheet metal, in 3D laser cutting, three-dimensional cutting is performed on parts already deformed by bending, pressing or turning.

Q: Can the laser cutter cut out a 3D shape?

A: Although I used these techniques to create art, the real beauty of this is that you can create any 3D object you want with a laser cutter, whether it's the object itself, or a negative of the object encased in a block, as I did.

Q: How does 3D laser cutting work?

A: What Is 3D Cutting? During the 3D laser cutting process, a laser beam cuts different types of tubing, angle iron, and I-beams. This method allows you to cut holes of any shape, create beveled edges in tubing walls, form”fish mouth” ends on round tubing, and perform other high-precision cutting tasks.

Q: Can 3D printers laser cut?

A: Some 3D printers can be converted into laser cutters or engravers by replacing the extruder with a laser module. This allows you to use the same machine for both 3D printing and laser cutting, depending on your project needs.

Q: What Cannot be cut with a laser cutter?

A: The temperature of the laser beam is enough to vaporize the material, but it does not support materials such as ABS and high-density polyethylene. Polystyrene and polypropylene foam are easy to catch fire when cut by laser cutting machine. Glass fiber is a mixture of two materials - glass and epoxy resin.

Q: What types of materials can be used with a 3D laser machine?

A: 3D laser machine can be used with various materials such as wood, acrylic, plastic, leather, stone, metal, and even glass. The specific materials that can be used depend on the capability of the machine and the type of laser source used (e.g. CO2, fiber or diode laser).

Q: What is the difference between a 3D laser machine and a traditional CNC machine?

A: A 3D laser machine uses laser technology to process materials, while a traditional CNC machine uses cutting tools to machine parts and products.

Q: What safety precautions should be taken when using a 3D laser machine?

A: Safety precautions when using a 3D laser machine include wearing protective gear, ensuring proper ventilation, and following all manufacturer guidelines and safety protocols.

Q: What are the advantages of using a 3D laser machine?

A: The advantages of using a 3D laser machine include high precision and accuracy, fast processing speed, and the ability to work with complex shapes and designs.

Q: Can a 3D laser machine be used for prototyping?

A: Yes, a 3D laser machine is often used for prototyping, as it can quickly create complex shapes and designs with high precision and accuracy.

Q: Is training required to operate a 3D laser machine?

A: Yes, training is required to operate a 3D laser machine to ensure safety and proper use of the equipment. Most manufacturers provide training and support for their machines.

As one of the most professional 3d laser machine manufacturers and suppliers in China, we're featured by good service and competitive price. Please rest assured to buy or wholesale high quality 3d laser machine made in China here from our factory. Contact us for quotation.

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