Production - Technology

SLA

SLA, or stereolithography, is a widely-used 3D printing process and the most popular of the resin printing technologies. The process owes its esteem in the additive space to its ability to produce prototypes that are accurate, isotropic and watertight, as well as production parts with impressive surface smoothness and more detailed features.

Materials

SLA can use a variety of materials, including standard resins, engineering-grade resins, and even flexible or castable resins.

Max Printing Size

2700mm(X)*900mm(Y)*800mm(Z)


Layer Thickness

0.05mm~0.2mm

Accuracy

L≤150mm,±0.2mm;L>150mm,±0.2%*L

SLS

Selective Laser Sintering (SLS) is a 3D printing technique that involves using a laser to selectively fuse powdered material, typically polymers or metals, layer by layer to create a solid object.

Materials

SLS can use a variety of materials, including plastics (nylon, PA12)

Max Printing Size

440mm*440mm*450mm

Layer Thickness

0.10mm~0.12mm

Accuracy

0.05mm-2.5mm

SLM

Selective Laser Melting (SLM) is a powder bed fusion 3D printing process that involves using a high-energy laser to selectively melt and fuse metal powders, layer by layer, to create fully dense, complex three-dimensional objects

Materials

SLM is primarily used with metal powders, including aluminium, titanium, stainless steel, and more.

Max Printing Size

625mmx625mmx1100mm

Layer Thickness

0.02mm-0.2mm

Accuracy

L≤150mm,±0.2mm;L>150mm,±0.2%*L

MJF

Multi Jet Fusion (MJF) is a powder bed fusion 3D printing technology that uses a combination of agents and thermal energy from multiple jets to selectively fuse and solidify powdered materials, typically polymers, into complex three-dimensional objects.

Materials

MJF's material capabilities to include PA nylon, TPU and more

Max Printing Size

380mmL x 280mmW x 380mmH

Layer Thickness

0.1~0.12mm

Accuracy

+/-0.1-0.25

FGF

FGF 3D Printer (FGF) is an extrusion-based 3D printing technique where plastic granulates (AKA plastic pellets) are melted and fed through a nozzle. It is also known as pellet extrusion printing, pellet printing, fused pellet fabrication or fused particle fabrication.

Materials

ABS , PLA , ASA, PETG+glass fiber/carbon fiber, PPS, PPSU, PEI+carbon fiber and moremax printing

Max Printing Size

2400*2000*1000mm

Layer Thickness

1mm~12mm

Accuracy

L≤150mm,±0.2mm;L>150mm,±0.2%*L

FDM

FDM, Fused Deposition Modeling is a 3D printing process that creates objects layer by layer by depositing and fusing thermoplastic materials.

Materials

FDM supports a variety of thermoplastic materials, including ABS, PLA, PETG, and more.

Max Printing Size

800*800*500

Layer Thickness

0.1~0.5

Accuracy

L≤150mm,±0.2mm;L>150mm,±0.2%*L