Industrial 3d printer

An industrial 3D printer is a machine that is used to create three-dimensional objects using a digital file as a blueprint. The process of creating a 3D printed object is called additive manufacturing, because it involves adding layers of material to build up the object.

Features of industrial 3D printers can vary, but some common features include:

  • Large build volume: Industrial 3D printers are often designed to be able to create larger objects than consumer-grade 3D printers.

  • High precision: Industrial 3D printers are designed to create objects with a high level of precision, which is important for creating functional parts and prototypes.

  • Multiple materials: Some industrial 3D printers are able to print using a variety of materials, including plastic, metal, and composite materials.

  • High speed: Industrial 3D printers are often faster than consumer-grade 3D printers, which can be important for producing large quantities of parts.

The working principles of an industrial 3D printer depend on the specific technology being used, but most 3D printers work by building up layers of material to create the final object. This is typically done using a process called extrusion, where a nozzle deposits molten material in a specific pattern, building up the object layer by layer as the nozzle moves over the build platform. Other 3D printing technologies, such as powder bed fusion and vat polymerization, work by selectively fusing or curing layers of material to create the final object.


Applications of production 3d printers

  1. Manufacturing: Industrial 3D printers can be used to produce a wide range of parts and products, including prototypes, jigs and fixtures, and end-use parts.

  2. Aerospace: 3D printing is used to produce a variety of parts for aircraft and space vehicles, including engine parts, fuel nozzles, and satellite components.

  3. Automotive: 3D printing is used to produce car parts, including custom and low-volume production parts.

  4. Medical: 3D printing is used to produce a variety of medical products, including prosthetics, hearing aids, and custom implants.

  5. Architecture: 3D printing is used to produce scale models of buildings and other structures, as well as full-scale building components.

  6. Art: Industrial 3D printers are used to create sculptures and other art objects.

  7. Education: Industrial 3D printers are used in education to teach students about 3D printing and manufacturing.

  8. Food: Industrial 3D printers are used to produce custom food items, such as chocolate and candy.

  9. Other: Industrial 3D printers are used in a variety of other industries, including fashion, jewelry, and consumer products.

Materials and basic techniques in the industrial use of 3D printers

There are many materials that can be used in industrial 3D printing, including:

  1. Plastics: 3D printers can use a wide range of plastics, including acrylonitrile butadiene styrene (ABS), polylactic acid (PLA), polyethylene terephthalate (PET), and others.

  2. Metals: Industrial 3D printers are able to print with a variety of metals, including steel, aluminum, titanium, and others.

  3. Composites: 3D printers can use composite materials, which are materials made from a combination of two or more materials.

  4. Ceramics: Industrial 3D printers are able to print with ceramics, which can be used to create objects with high temperature and wear resistance.

  5. Other materials: Industrial 3D printers are also able to print with a variety of other materials, including food, wax, and rubber.

There are several basic techniques that are commonly used in the industrial use of 3D printers, including:

  1. Extrusion: Extrusion is a process where a nozzle is used to deposit molten material in a specific pattern, building up the object layer by layer as the nozzle moves over the build platform.

  2. Powder bed fusion: In powder bed fusion, a laser or an electron beam is used to fuse layers of powdered material to create the final object.

  3. Vat polymerization: In vat polymerization, a photosensitive resin is cured by a light source to create the final object.

  4. Sheet lamination: In sheet lamination, thin sheets of material are bonded together to create the final object.

  5. Binder jetting: In binder jetting, a binder is selectively applied to layers of powdered material to create the final object.

  6. Direct energy deposition: In direct energy deposition, a focused energy source is used to melt and deposit material to create the final object.


Review of the best industrial printers

It's difficult to say which industrial 3D printers are the "best," as the right printer for a particular application will depend on a variety of factors, including the materials being used, the size and complexity of the objects being printed, and the budget of the user. That being said, here are a few industrial 3D printers that are highly regarded in the industry:

  1. Stratasys Fortus 450mc: The Stratasys Fortus 450mc is a high-quality extrusion-based 3D printer that is capable of printing with a variety of materials, including ABS, PC-ABS, and polycarbonate. It has a build volume of 14 x 10 x 14 inches and is capable of producing parts with a high level of accuracy and detail.

  2. EOS M 400: The EOS M 400 is a laser sintering-based 3D printer that is capable of printing with a variety of metals, including steel, aluminum, and titanium. It has a build volume of 400 x 400 x 400 mm and is capable of producing parts with high strength and durability.

  3. Ultimaker S5: The Ultimaker S5 is a high-quality extrusion-based 3D printer that is capable of printing with a variety of materials, including PLA, ABS, PETG, and others. It has a build volume of 330 x 240 x 300 mm and is capable of producing parts with a high level of accuracy and detail.

  4. Carbon M2: The Carbon M2 is a vat polymerization-based 3D printer that is capable of printing with a variety of materials, including elastomers, polyurethanes, and other engineering-grade plastics. It has a build volume of 145 x 145 x 185 mm and is capable of producing parts with a high level of accuracy and detail.

  5. HP Jet Fusion 3D 4200: The HP Jet Fusion 3D 4200 is a binder jetting-based 3D printer that is capable of printing with a variety of materials, including nylon, polypropylene, and other engineering-grade plastics. It has a build volume of 254 x 254 x 356 mm and is capable of producing parts with a high level of accuracy and detail.


The Flashforge Guider 3 Plus is a 3D printer that is designed for professional use. It is an FFF (fused filament fabrication) 3D printer that uses a nozzle to deposit molten material in a specific pattern to create the final object. Some of the key features of the Flashforge Guider 3 Plus include:

  • Large build volume: The Flashforge Guider 3 Plus has a build volume of 305 x 305 x 305 mm, which is suitable for creating larger objects.

  • High precision: The Flashforge Guider 3 Plus is designed to produce objects with a high level of precision, with a layer resolution of up to 50 microns.

  • Multiple materials: The Flashforge Guider 3 Plus is able to print with a variety of materials, including PLA, PETG, ABS, and others.

  • Heated print bed: The Flashforge Guider 3 Plus has a heated print bed, which helps to improve the adhesion of the printed object to the bed and can improve the overall quality of the print.

  • Dual extrusion: The Flashforge Guider 3 Plus has a dual extrusion system, which allows it to print with two different materials or colors at the same time.

  • Automatic bed leveling: The Flashforge Guider 3 Plus has an automatic bed leveling system, which helps to ensure that the bed is level and the object is being printed on a flat surface. This can improve the accuracy and quality of the printed object.