Powder Bed Fusion AM system (
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Japan made High-end 3D printer 
series
Excellent printing accuracy
With a new high-speed digital galvanometer mirror, it achieves high-definition and high-precision scanning by optimized parameters.
Incredible printing speed
By adopting a zigzag scanning method for the laser exposure, the laser scanning speed is reduced by 20 to 30% compared to the conventional raster scanning method.
Achieve high productivity
Our AM systems can print parts over a wider range and support for mass production by stable temperature control with independent three IR sensor located front, center and rear in part area.
A wide range of high performance materials
From nylon 12 to PFA, which is attracting attention as the world’s first powdered resin for 3D printers, a variety of materials can be used with our one AM system depending on the application and function. Materials are highly recyclable, and low-cost, suitable for high-variety low-volume production.
Product line-up
Powdered resin materials
Super engineering plastics
It has properties that exceed those of engineering plastics, especially in terms of strength, heat resistance, and chemical resistance, making it suitable for electrical and electronic parts and aerospace parts. It is a highly popular material that can only be printed with the machines compatible with high temperature materials (AM-E3 HT AM system series).
Supported AM systems:
- 550HT
- 300HT
- 150HT
↓↓↓Click on the material name to see the flyer in a pop-up.
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Perfluoroalkoxyalkane | Material with properties equivalent to PTFE (polytetrafluoroethylene) Developed as a powder resin material for 3D printers |
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Polyphenylene Sulfide | It is made of polyphenylene sulfide (melting point 280℃), a super engineering plastic, and is characterized by its high melting point and flame resistance. For more information |
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Polyphenylene sulfide + glass beads |
In addition to the characteristics of the material, which is made by adding glass beads to polyphenylene sulfide  , it also has excellent heat resistance and high insulation properties, making it ideal for electrical components. |
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Polyphenylene sulfide + carbon fiber |
A material made by adding carbon fiber to polyphenylene sulfide. It has excellent heat resistance and flame retardancy, and is also used as an aluminum substitute. It is also lightweight. |
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Polyphenylene sulfide + glass fiber |
A material made by adding glass fiber to polyphenylene sulfide. It has excellent heat resistance and flame retardancy, and is also used as an aluminum substitute. It is also lightweight. |
Engineering Plastics
Generally, it has a heat resistance of over 100°C and has excellent mechanical strength and abrasion resistance, making it suitable for products that require high performance, such as automotive parts and electronic and electrical equipment parts.
Supported AM systems:
- 550HT
- 300HT
- 150HT
- 550
- 300
↓↓↓Click on the material name to see the flyer in a pop-up.
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 | Nylon 12 (PA12) | The first nylon 12 (PA12) material in Japan to receive UL94V-0 flame retardant certification *1. Boasting excellent strength, surface quality and flame retardancy, and automatically extinguishing even if ignited, it is suitable for many applications, including the aerospace and defense industries, automobiles, home appliances and industrial equipment. | |
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 | Nylon 6 (PA6) | Nylon 6 (PA6) material that has been certified UL94 V-2 flame retardant*1. It has excellent strength and is resistant to deformation, and even if it catches fire, it will automatically extinguish, making it suitable for many applications, including the aerospace and defense industries, automobiles, home appliances, and industrial equipment. |
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 | Nylon 12 (PA12) | Improved fluidity and fineness during sintering and melting. Good surface roughness of printed products reduces post-processing time. High airtightness without post-processing such as impregnation. | |
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 | Nylon 12 (PA12) |
Compared to  , it has improved toughnessand is suitable for parts with hinge shapes that require flexibility and parts that require impact resistance. | |
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Nylon 12 (PA12) + glass beads |
A material made by adding glass beads to . Compared to  , it has excellent surface roughness, is easierto finish process, and has good airtightness. | |
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Nylon 12 (PA12) + glass beads |
A material made by adding glass beads to . Improved strength and elastic modulus compared to  . | |
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Nylon 11 (PA11) |
Nylon 11 (PA11) is made from 100% plant-derived materials. It has almost the same strength and elastic modulus as nylon 12 (PA12), and has excellent toughness and impact resistance. It has good resistance to repeated bending deformation and is not easily broken. |
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Nylon 6 (PA6) + glass fiber |
A material made by adding glass fiber to nylon 6 (PA6). It has high density, excellent surface smoothness, and is airtight, heat resistant, and durable. For more information |
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 | Polybutylene Terephthalate | Polybutylene terephthalate is a material that has been developed as the world’s first powdered resin for 3D printers. It has a melting point of 208°C, excellent oil and solvent resistance, and the highest insulating properties of any thermoplastic resin. |
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 | Polyacetal | Polyacetal powder material has excellent sliding and abrasion properties, high airtightness and chemical resistance, and high temperature stability, so it can also be used as a substitute for metal. |
※1 Certification is subject to certain conditions.
※2 Printing is only possible with the 550HT/300HT/150HT.
General purpose plastics
Thermoplastic resins are inexpensive and are used for large quantities in variety of consumer products and industrial products.
Supported devices:
- 550HT
- 300HT
- 150HT
- 550
- 300
↓↓↓Click on the material name to see the flyer in a pop-up.
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 | polypropylene | This is a genuine polypropylene material, not a fake one. It is a material with excellent flexibility and toughness. |