3DCeram C101 EASY FAB
Precision Ceramic 3D Printing for R&D and Scalable ProductionThe C101 EASY FAB is a high-precision ceramic 3D printer engineered for laboratories, research centers, and manufacturing teams developing advanced ceramic parts. Equipped with user-friendly controls, optimized accessibility, and a powerful UV laser stereolithography system, it enables effortless prototyping and process refinement before transitioning to large-format platforms like the C1000 FLEXMATIC or C3601 ULTIMATE. Its automatic slurry control, hybrid printing capabilities, and support-free printing technology ensure consistent accuracy, repeatability, and material efficiency—making it ideal for innovation-focused environments.
- Lab-Ready Development Mode
- Support-Free SLA Printing
- Seamless Scale-Up Capability
Features and Benefits
Explore the powerful features and practical benefits that make the C101 EASY FAB the ideal ceramic 3D printing solution for labs and production-oriented R&D.
Printer Specifications
Detailed technical parameters of the C101 EASY FAB to help you evaluate performance, accuracy, and facility requirements.
- Approx. Dimensions: 1095 x 1070 x 1980 mm (LxPxH)
- Build platform size: 100 x 100 x 150 mm
- Approx. Weight: ≈ 600 kg
- Electrical requirements: 220-240 VAC / 50Hz
- Laser power: 300 mW
- Light source: UV Laser
- Laser spot diameter: ≈ 60 µm
- UV Wavelength: 405 nm
- Z axis movement: 0.020 – 0.125 mm
- Optimal room temperature: 20-25°C
- Maximum room temperature variation: 1°C/hour
- Relative humidity: 50%
- Compressed air: 6 bars day
- Hybrid option: Available
Materials
Power Your Prints: Premium Materials for Every Need
Zirconia
Zirconia (ZrO₂) is a strong ceramic with excellent mechanical strength, high hardness, wear and chemical resistance, low thermal conductivity, and high temperature stability. It is also colorable for precision jewelry and advanced industrial applications.
Silicore
Silicore is a silica‑based ceramic engineered for foundry cores, offering high mechanical strength and a porous structure that enhances leachability in complex geometries—ideal for precision casting, shell molds, and demanding metal casting applications
Alumina (Al2O3)
Alumina (Al₂O₃) is a versatile ceramic with excellent high‑temperature strength, thermal conductivity, electrical resistivity, hardness, wear resistance, and chemical stability—ideal for advanced industrial parts, electrical insulators, and high‑temperature structural components.
Alumina Toughened Zirconia
Alumina‑toughened zirconia (ATZ) is a biocompatible, high‑strength ceramic with excellent wear resistance and thermal shock tolerance—ideal for demanding biomedical implants, prosthetics, and rugged industrial components requiring long‑lasting performance.
Cordierite
Cordierite ceramic offers low thermal expansion (CTE), low thermal conductivity, and excellent wear resistance, making it ideal for vacuum applications, high‑temperature components, kiln furniture, and parts requiring dimensional stability under thermal cycling.
Zirconia 8Y
8 mol% yttria‑stabilized zirconia (8YSZ) is a high‑performance ceramic engineered for fuel cell applications, offering excellent ionic conductivity, thermal stability, and mechanical strength—ideal for solid oxide fuel cells and advanced energy systems.
TCP
Tricalcium Phosphate (TCP) is a bioceramic widely used for medical implants and bone repair, especially for replicating spinal structures due to its excellent biocompatibility and similarity to natural bone composition.
Silice SiO2
Silica (SiO₂) ceramic offers excellent thermal stability and precision, making it ideal for foundry cores, investment casting applications, and optical components where high temperature resistance, dimensional accuracy, and surface quality are critical.
HAP
Hydroxyapatite/TCP is a bioactive ceramic with a chemical composition similar to natural bone, ideal for biomedical applications. It promotes excellent osteointegration, making it suitable for bone grafts, implants, and regenerative solutions.
Silicon Nitride
Silicon nitride is one of the hardest and most durable technical ceramics, with high resistance to thermal shock, wear, and corrosion. It is used in pumps, valves, semiconductors, and other components.
Aluminium Nitride
Aluminium Nitride (AlN) is a high‑performance ceramic offering exceptional mechanical strength, excellent thermal conductivity, and electrical insulation—ideal for advanced electronics, power modules, substrates, and components requiring reliable heat management and dielectric performance.
Applications
Ideal for producing functional ceramic components in sectors such as aerospace, biomedical, electronics, research labs, and high-tech manufacturing.
Softwares
CERAMAKER provides end-to-end print management with parameter control, slicing optimization, material calibration, and real-time monitoring for flawless ceramic printing results.
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