3DCeram C900 FLEX
Flexible ceramic 3D printer for small series and prototyping with multiple platform sizes and SAM option.
- Build platform options: 100×300, 200×300, 300×300 mm
- Free‑link technology
- SAM option: aunch a fast printing run with only 100 mL of slurry
- Functional parts with conventional‑like properties
Top‑down SLA; free‑link approach; optimized for functional ceramics in small batches.
Technical Specifications
Platform options: 100×300; 200×300; 300×300 mm
1060 x 2250 x 2040 mm; approx. 1450kg
Top‑down SLA; few or no supports required
UV Wavelength
355 nm
Laser Spot Diameter
~ 35 µm
Popular Applications
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Model Materials
Supports a wide range of technical ceramics.
Zirconia 3Y
High hardness, chemical inertness, excellent mechanical properties
C101 EASY, C900 FLEX, C1000 FLEXMATIC
Dental crowns and bridges, orthopedic implants, wear-resistant components, electronics
- Used in high-stress environments
- Ideal for precision components requiring both aesthetics and strength
- Typically sintered at ~1450–1550°C for full density
Zirconia 8Y
Excellent ionic and oxygen-ion conductivity, thermal insulation.
C101 EASY, C900 FLEX, C1000 FLEXMATIC
Fuel cells, energy systems
- Used in solid oxide fuel cells (SOFCs)
- Functions efficiently under extreme heat
Alumina Toughened Zirconia (ATZ)
Superior toughness, abrasion and thermal resistance, biocompatible
C900 FLEX
Implants, teeth, wear-resistant mechanical parts
- Combines the best of zirconia (toughness) and alumina (hardness)
- Excellent for cyclic and abrasive environments
Hydroxyapatite (HAp)
High biocompatibility, osteoconductive
C101 EASY, C900 FLEX, C1000 FLEXMATIC
Biomedical implants, bone scaffolds
- Similar chemical composition to natural bone
- Promotes bone growth
- Used in custom orthopaedic and dental implants
Silicore
Porous structure, high mechanical strength, stable at high temperatures
C101 EASY, C900 FLEX, C1000 FLEXMATIC
Foundry cores
- Excellent leachability
- Custom-made for high-temp core-making in complex castings
- Compatible with all alloys except cobalt
Silicon Nitride (Si₃N₄)
Known for its excellent thermal shock resistance, high hardness, and superior wear and corrosion resistance.
C101 EASY, C900 FLEX, C1000 FLEXMATIC
Aerospace, automotive components, medical implants, energy systems
- Withstands high temperatures (~1800°C)
- Corrosion-resistant and frequently used in engine and turbine parts
Fused Silica (SiO₂)
Good leachability, excellent thermal shock resistance, low thermal expansion, high purity
C900 FLEX
Foundry cores, investment casting molds, and high-temperature tooling
- Ideal for producing hollow, intricate molds and cores
- Maintains dimensional stability under thermal cycling
- Common in aerospace and industrial casting workflows
Alumina (Al₂O₃)
Biocompatible, electrically insulating, high hardness and wear resistance
C101 EASY, C900 FLEX, C3601 ULTIMATE, C1000 FLEXMATIC
Biomedical (implants), electronics, aerospace, mechanical engineering, foundry cores, spatial.
- Operating temperature up to ~1600°C
- Cost-effective and widely used
- High dielectric strength
Tricalcium Phosphate
Biocompatible, bioresorbable
C900 FLEX
Biomedical implants, bone regeneration
- Stimulates bone growth
- Designed to degrade safely in the body and be replaced by natural bone
Cordierite
Low thermal conductivity, low CTE, shock-resistant
C900 FLEX
Optical components, aerospace, metrology, vacuum environments
- Ideal where minimal thermal expansion is critical
- Lightweight, durable under vacuum or temperature changes
Aluminium Nitride (AlN)
High thermal conductivity, excellent electrical insulation, good mechanical strength
C101 EASY, C900 FLEX
Electronics industry – substrates, heat sinks, and circuit components
- Commonly used in power electronics, LEDs, and microelectronic packaging.
- Maintains stability in high-temperature and high-voltage environments
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