HOTLINE:
EQUIPMENT ADVANTAGE
3D PRINTING CASE
APPLICATION SCENARIOS
PRINTABLE MATERIAL
1. Precise scraping with scraper, compatible with high-viscosity ceramic photosensitive paste:
2. Only 1.5L of materials:
3. Repeated positioning accuracy up to ±0.02mm:
4. High precision ultraviolet projection light machine:
5. Upgrade the casting molding process:
6. Complete solution, limited time discount price:
HIGH
COMPATIBILITY
MICRON
ACCURACY
Upper cast
light
molding
OPEN
PARAMETER
SIMPLICITY
OF
OPERATOR
DESKTOP CERAMIC 3D PRINTER
TOY
BADGE
RHOMBOID ARRAY
Dentistry
Electronics
New Energy Industry
Handiwork
Industrial Parts
Atomizing Core
Structural Ceramics
Material Research
Zirconia 3D printing paste
Alumina 3D printing paste
Silica 3D printing paste
Hydroxyapatite 3D printing paste
Silicon carbide 3D printing paste
Silicon nitride 3D printing paste
Characteristics: High temperature resistance, corrosion resistance, high hardness, high strength
Application scenarios: ceramic parts, industrial wear parts, medical equipment, aerospace parts, etc
Characteristics: High temperature resistance, corrosion resistance, high hardness, high strength and chemical stability
Application scenarios: Electronics, machinery, life sciences and medical devices
Features: High hardness, high strength, corrosion resistance,
Capable of making complex structures
Application scenarios: micro machinery, biomedical instruments, energy equipment, nanofilters and nanosensors
Characteristics: High hardness, high strength, biocompatibility, can promote bone tissue growth
Application scenarios: bone tissue regeneration, dental medicine, medical simulation model, drug slow release materials
Characteristics: High hardness, high strength, high wear resistance, high temperature stability and chemical stability
Application scenarios: Hard ceramic products, bearings and seals, energy storage devices, nanofilters and nanosensors
Characteristics: High hardness, high strength, high wear resistance, high temperature stability and chemical stability
Applications: Hard ceramic products, optical devices and optical fibers, solar panels, semiconductor manufacturing and surface coatings
DEVICE PARAMETER LIST
The slurry fluidity requirement is low, even the paste like toothpaste, poor fluidity can also be scraped by fine scraper, suitable for more material experiments, wide application scenarios.
Customized T-shaped tank, at least only 1.5L to start printing, greatly saving the cost of experimental research and development, suitable for new ceramic materials 3D printing research.
Accurate and rapid response to material level, repeated positioning accuracy of ±0.02mm, laser positioning instrument supports high-speed signal analysis and processing, and fast leveling to improve the printing success rate.
Equipped with 1080P UV optical machine, optical distortion ≤0.1%, optical accuracy as low as 25μm, while the optical machine can be moved up and down, to achieve a multi-precision printing, more flexibility and openness.
The "forward sinking" molding process can effectively avoid the "secondary curing" problem, improve the printing accuracy and ensure a higher printing success rate.
The team has established a comprehensive service model integrating "equipment products - materials + printing solutions - after-sales technical guidance", and launched a complete set of ceramic 3D printing solutions including "equipment +2L material + sintering parameter package" for a limited time, the price is as low as 9.98W, call to book, enjoy the benefits.
Repeated positioning accuracy of ±0.02mm
ADT-3D-WF-Printer
Device name
DLP Single Cylinder Sinking Ceramic 3D Printing Equipment
Model
ADT-3D-WF-Printer-64-25
ADT-3D-WF-Printer-96-50
Equipment size - length, width, height (mm)
400mm×380mm×750mm
Formating space length × width × height (mm)
64×36×60mm
96×54×90mm
Single pixel (spot) point size of optical machine (μm)
50μm
Theoretical maximum surface power
20mW/cm^2
30mW/cm^2
Formating mechanism
Digital Surface Exposure (DLP) Mask less UV Lithography Technology
UV output power
0.5W
2.0W
Resolving power
2560×1440
1920×1080
UV wavelength
405nm
405nm
Variable precision
25-30μm
45-55μm
Curing power
1-100% adjustable
Single layer curing time
1-60S adjustable, adjustable time unit 10ms
Physical layer thickness resolution
5-150μm adjustable
Suggest setting the printing layer thickness (using alumina slurry as an example)
Resolution of measured curable layer thickness (silicon oxide, refractive index 1.5)
40-200μm (70wt%-53vol%)
Resolution of measured curable layer thickness (alumina, refractive index 1.7)
40-70μm (87wt%-65vol%)
Resolution of measured curable layer thickness (zirconia, refractive index 2.2)
30-60μm (82wt% -45vol%)
Start printing the feeding amount (the amount of material required to print a 1mm thick sample)
1.5L
2L
Printing efficiency (1 second curing time, laying rate 150mm/s, full frame printing)
≥180 layers/hour
≥220 layers/hour
Type of photosensitive material
Water and oil systems
Supporting materials
Mainly printing alumina ceramic materials and photosensitive ceramic materials with refractive index below 2.2 (zirconia, etc.), compatible with various photosensitive resin materials
Compatibility of printable ceramic materials
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Self developed ceramic photosensitive material one-time test printing success rate (test printing 10×10×10mm square blocks)
75% (high material viscosity and improper surface tension can easily cause scraper sticking)
Support slurry - solid content
(Aluminum oxide as reference) not less than 59vol%
Whether to automatically filter
No
File Support Format
STL Format
Solid content of printable material (silicon oxide, refractive index 1.5)
70wt% -53vol%
Solid content of printable material (alumina, refractive index 1.7)
84wt%-59vol%
Solid content of printable material (zirconia, refractive index 2.2)
82wt%-45vol%
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