High Strength Prototype SLS 3D Printing Service for Plastic Parts Medical Orthosis

China High Strength Prototype SLS 3D Printing Service for Plastic Parts Medical Orthosis, Find details about China 3D Printing, Industrial from High Strength Prototype SLS 3D Printing Service for Plastic Parts Medical Orthosis

Model NO.
SLS
Trademark
GLINK
Transport Package
Safe Package
Specification
customization
Origin
China
Model NO.
SLS
Trademark
GLINK
Transport Package
Safe Package
Specification
customization
Origin
China
3D printing service
 

 

High Strength Prototype SLS 3D Printing Service for Plastic Parts Medical Orthosis
Selective Laser Melting, SLM: SLM fully melts the powder, and therefore it needs to reach a higher temperature than this other metal 3D printing technique. The printing process then fuses metal powder particles in a full melting process. Then the process stays the same, a laser comes to sinter the powder and creates a solid object layer by layer.
 
Selective Laser Sintering or SLS: This 3D printing technique creates objects by sintering the powder inside the printer, using a laser. During this layer by layer process, the powder bed is preheated and a laser sinters the powder according to the 3D model to create the solid object.
 
High Strength Prototype SLS 3D Printing Service for Plastic Parts Medical Orthosis
High Strength Prototype SLS 3D Printing Service for Plastic Parts Medical Orthosis
Stereolithography, or SLA: Stereolithography the first 3D printing technique ever created. This resin additive manufacturing process us using photochemical processes. It uses liquid photopolymers that can be cured. The build plate moves down in small increments and the liquid polymer is exposed to light where the UV laser draws a cross-section layer by layer. The process repeats until the object is printed.
 
Fused Deposition Modeling or FDM: This 3D printing method is well-known by hobbyists, but also in education. FDM 3D printers are using one or two print heads for the deposition of melted 3D printing material. The material is melted and extruded through a nozzle, to create the desired object each layer at a time.  FDM is mostly known for being a plastic 3D printing technique, but it is now possible to use it to print metal materials for example. 
 
High Strength Prototype SLS 3D Printing Service for Plastic Parts Medical Orthosis
High Strength Prototype SLS 3D Printing Service for Plastic Parts Medical Orthosis
Multi Jet Fusion or MJF is an industrial 3D printing process that produces functional nylon prototypes and end-use production parts in as fast as 1 day. Final parts exhibit quality surface finishes, fine feature resolution, and more consistent mechanical properties when compared to processes like selective laser sintering.
 

 

Product Parameters
Building Volume340*340*600MM
TechnologySLS
Layer Thickness0.08mm (0.003inch)
Dimensional Accuracy±0.2mm
Printable Materials EOS PA2200, PA3200GF
Print Resolution (x, y)1200(dpi)
Supported File TypesSTEP, IGES, STL, OBJ, etc.
Software BundleProE, Solidwork, UG, 3D Max, Autodesk 123D
MOQ1 piece
Printing timeDepend on the structure, usually 1~5 business days
Delivery time3~5 business days
ApplicationAuto parts, Medical Protector, Fixture, eyewear, etc.
Country of originChina
Packaging Bubble bag and standard export carton / wooden box according to customers' requirements
Printer material
High Strength Prototype SLS 3D Printing Service for Plastic Parts Medical Orthosis
Prodction process

High Strength Prototype SLS 3D Printing Service for Plastic Parts Medical Orthosis