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Quality MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency factory
Quality MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency factory
Quality MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency factory
Quality MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency factory
Quality MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency factory
Quality MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency factory
Quality MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency factory

MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency

Brand Name: MakerPi
Place of Origin: Guangdong, China
Minimum Order Quantity: 1
Price: $10
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 0
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 2
Parameters
Working Size
160x60x60mm;50x50x50mm(optional);30x30x30mm(optional)



Equipment Size
700x560x620mm



Resolution
Physical resolution 600 DPI, printing resolution 1200 DPI



Printing Accuracy
Dimensional accuracy 0.1-0.2mm, layer height ≥0.03mm



Printing Speed
15-35 seconds per layer



Positioning Accuracy
Printhead positioning accuracy 1μm, build area stitching accuracy 5μm



Printing Modes
Experimental Mode,Calibration Mode,Standard Mode



Printhead System
Piezoelectric printhead with negative-pressure ink delivery system



Supported Materials
Metal powders, ceramic powders, polymers, sand,pharmaceuticals, food, biological solutions, cell solutions, wax, and more



Addition Functions
Printhead cleaning, printhead moisturizing,print baking (UV,IR), and cylinder heating



Workflow
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 4

Spreading Powder Jet Adhesive

Evenly Spread A Thin Layer The Spray Head Accurately Of Powder (The Material Sprays Liquid Adheslve In
Can Be Metal, Ceramic, The Specified Area Based
Sand Casting, Polymer, Etc.) On The Sliced Data Of The
On The Printing Platform. Digital Model, Causing
Local Adhesion Of The
Power Particles.
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 6

Repeat Layer By Layer After Processing

Repeat The Steps Of Applying Remove The Printout, Powder And Spraying Eliminate The Loose Adhesive Until All Layers Are Powder That Has Not Completed. Adhered,And Enhance The Strength Through
Processes Such As
Sintering, Infiltration,
Or Curing.
Features
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 8

A.Material Diversity

Supports A Variety Of Materials Including Metals, Ceramics, Sand,Polymens, Medical Powders, Gypsum, And More.
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 10

B.High Efficiency

Adopting A Spray Head Array For Full Coverage Printing Significantly Improves Printing Speed, Making It Suitable For Largn-scale Rapid Manulacturing.
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 12

C.No Support Needed

Print Various Complex Structures Without Support.
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 14

D.Low Cost

It Has Advantages In Terms Of Equipment Cost, Usage Cost, And Maintenance Cost.
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 16

E.Avoid High Temperatures

No Need For Laser Melting Of Materials, Making It Friendly To Temperature-sensitive Materials.
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 18

F.High Solid Content

High Solid Content Results In Less Shrinkage, Higher Density, And Higher Strength After Degreasing Sintering.
Equipment Selling Points
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 20

A.Scientific Research

Desktop-size (700*560*620mm], Industrial-grade Performance,Multi-parameter, Digital, Multi-mode, Micro-experiment, Expancable,High Cost-eflectiveness.
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 22

B.Customizablo

With Independent Intellectual Property Rights, We Offer Flexible Customization Solutions To Meet Diverse Needs.
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 24

C.Expandable

The Powder Spreading Module And Inkjet Module Are Designed Independently And Modularly For Easy Expansion,
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 26

D.Industrial-Grade Performance

Equipped With An Industrial-grade Piezoelectric Printhead (RicohG5) System, Linear Motor System, And Ipm-level Positioning Accurcy.
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 28

E.Negative Pressure System

Effectively Prevents Ink From Flowing Or Dripping, Ensuring High Ink Viscosity Compatibility And Precite Droplet Control, Meeting The Demands For High-precision And High-stability Printing.
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 30

F.Multi-Material Compatibility

Supports A Wiide Range Of Materials, Including Metals, Ceramics,Polymers, Sand, Phammaceuticals, Foad, Biclagical Solutions, Cell Solutions, And Wax.
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 32

G.Multi-Size

Compatibility; Supports Multiple Working Dimensions, Including 160*60*60mm,50°50*50mm,And 30*30*30mm.
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 34

H.Double Powder Warehouse

Featurres A Dual-cylinder Structure With A Forming Cylinder And A Stability.Materlal Cylinder For Enhanced Convenience, Efficlency, And Stability.

Other Functions:

Print Head Cleaning, Print Head Moisturizing, Baking During Printing, Powder Warehouse Heating
Application
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 36
Aerospace
Production Of Complex-structured Metal Components (E.G, Aerospace Parts).
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 38

Scientific Research & Exporimontation

New Materials, New Processes, Muliti-materials, And Interdisciplinary Scientific Research Applications
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 40
Medical Field
Customized Ceramic Implants Or Bone Models.
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 42
Architectural Models
Printing Architectural Prototypes Or Artistic Installations Using Gypsum Or Sand.
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 44
Foundry Industry
Rapid Manufacturing Of Sand Casting Molds And Cores (E.G., Automative Engine Cylinder Casting).
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 46
Consumer Goods
Low-cost Production Of Jewelry Or Functional Prototypes.
Print Product Display
MakerPi ComproJet Heat Sink 3D Printer Binder Jetting for Metal Sand Ceramics Scientific Research Printing with High Efficiency 48
Printer Connectivity Technology: USB, Wifi Usage: Matel Printer, Ceramics Printer, Sand Printer, Polymers Printer
Voltage: 110V/220V Warranty: 1 Year
Weight: 100 Printing Material: Metals, Ceramics, Sand,Polymers, Medical Powders, Gypsum, And More
Production Capacity: 500units/month Product Size: 700x560x620mm
Packing Size: 65*62*79cm Supporting Material: None
Resolution: Physical Resolution 600 DPI,printing Resolution 1200 DPI Application: Prototyping
Printhead System: Piezoelectric Printhead With Negative-pressure Ink Delivery System Build Material: Metals, Ceramics, Sand
Printing Modes: Experimental Mode,Calibration Mode,Standard Mode Build Volume: 160x60x60mm, 50x50x50mm, 30x30x30mm
Printing Accuracy: Dimensional Accuracy 0.1-0.2mm, Layer Height ≥0.03mm Condition: New
Positioning Accuracy: Printhead Positioning Accuracy Lμm Connectivity: Wired
Special Functions: Printhead Cleaning, Printhead Moisturizing Connector Type: USB
Dimension(l*w*h): Customize Filament Type: Sand, Metal, Ceramics
Input Power: Power Adapter Operating System: Windows OS, Linux, MacOS, Other
Plate Type: Flatbed Plug Specification: US Plug, UK Plug, AU Plug, Japan Plug, EU Plug
Print Technology: Binder Jetting