C3601 ULTIMATE
The mass production’s solution. The 3601 is the largest industrial printer in the 3DCeram product line with a build area of 600x600x300mm.
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Technology:
CERAMIC SLA
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Materials:
Ceramic Pastes
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Description
The optimal solution for mass production. The 3601 is the largest industrial printer in the 3DCeram product line with a build area of 600x600x300mm. The Ceramaker 3D printer allows you to produce products with high surface quality, the roughness of which does not exceed 2 microns.
Mechanical processing can be carried out at any intermediate stage. The parameter setting module has an open architecture, which makes it possible to use different materials. The Ceramaker 3D printer is supplied with modules of different sizes. This makes it possible to optimize the consumption of paste during printing. Benefits Stereolithography (laser) Technology without support. Reduced production cost of 1 part Reduced cleaning time.
Why is 3D printing of ceramic products preferable to making them using traditional methods?
- Because of the quick ability to make constructive changes.
- The ability to manufacture products with a complex individual shape, including complex internal channels.
- Production of products with an individual composition of additives in the material. This allows you to achieve unique and necessary characteristics of products.
Printing Without Supports
Top-down stereolithography enables technology that can print without supports. The tray moves down as the part itself is built from the bottom-up. 3DCeram is able produce consistent parts with high precision and fine details.
The feeding of the printing material is done by a printing material is fed into a cartridge which is simply filled at the beginning of the printing cycle. It is possible to re-fill the cartridge during the printing cycle.
Aerospace hardware
Owing to their exceptional physicochemical properties, including excellent corrosion resistance and electrical insulation, ceramic materials for 3D printing are a significant breakthrough for the aerospace industry, which continually seeks new technological advancements, lighter weight, and shorter development timelines. In this context, ceramics are utilized to enhance the performance of advanced space equipment, such as satellites, measurement devices, optical instruments, and more.
Ceramic foundry cores
Foundry cores play a crucial role in the manufacturing of turbine blades for both aviation and land-based gas turbines. There is currently a growing demand for complex core designs driven by the need for smaller, more efficient, and cost-effective engines that operate at higher temperatures. 3DCeram has developed an optimized method for producing ceramic foundry cores that offers significant advantages over traditional techniques, including reduced build times while improving the cost-per-core ratio.
The requirements for core production encompass high dimensional accuracy, adequate structural strength, appropriate surface roughness, and controlled material porosity. These parameters can be effectively managed through ceramic 3D printing. In addition to saving time and boosting productivity, this approach offers design flexibility, improved responsiveness, consistent quality of the produced cores, and increased profitability for manufacturers.
Biomedical advances
Since 2005, 3DCeram has been at the forefront of developing advanced biomedical solutions. Throughout the years, the company has achieved a level of expertise that fully addresses the needs of the medical field. With a diverse array of ceramic 3D printers and specialized biocompatible materials, 3DCeram possesses all the essential supply chain certifications to implement its innovative technologies across various sectors, including dental, orthopedic, maxillofacial, and plastic surgery.
The company is well-known for producing small batches of bone substitutes, such as intervertebral cages and tibial osteotomy wedges, as well as cranial and jawbone implants. Additive manufacturing allows professionals to precisely control the porosity of these ceramic substitutes. Additionally, 3DCeram has created a unique SLA-based technology called BioCranium, which facilitates the production of custom bioceramic implants.
Expanded industry
Different industrial sectors are increasingly leveraging the distinctive mechanical, electrical, thermal, and chemical properties of technical ceramic materials. 3DCeram’s additive manufacturing technology is gaining traction in areas such as chemistry, oil and gas, water treatment, electronics, automotive, and more.
Ceramic 3D printing streamlines the creation of intricate components that traditional equipment and methods cannot achieve. It minimizes downtime and removes the necessity for costly tooling, which is especially crucial for contemporary businesses and small-scale production. Furthermore, the adaptable design options facilitate rapid and mold-free manufacturing of functional parts.
For the benefit of research
The resistance and diverse properties of ceramic materials—including mechanical, magnetic, thermal, chemical, and electrical characteristics—make them suitable for applications that endure high stress in challenging environments. Similarly, 3DCeram’s highly functional and dependable additive manufacturing machines are contributing to the increasing demand for ceramic 3D printing in research conducted by major research groups and universities.
Materials
- Brand 3DCeram
- Country of origin France
- Weight 4000 kg
- Dimensions 2100 × 1800 × 2500 mm (82.67 × 70.86 × 98.42 inch)
- Build Volume 600 × 300 × 600 mm (23.62 × 11.81 × 23.62 inch)
- Layer thickness 0.025-0.125 mm
- Light source 4 UV lasers
- UV Wavelength 405 nm
- Laser spot diameter ~ 60 μm
- Electrical requirements 220-240 VAC / 50Hz
- Power Consumption 4 kW
- Optimum indoor operation temperature 20-25 °C, 68-77°F
- Maximum room temperature variation 1°C/hour
- Relative humidity 50%
- Compressed air 6 bars dry
- Hybrid option At a later stage
- Additional equipment Cerakleaner. Cleaning device for removing unpolymerized paste. Module for removing the printing platform. Allows you to remove printed models from the build chamber and collect unpolymerized paste.
- Client Operating System Web Dashboard
- Warranty 12 months
- Technology CERAMIC SLA
- Printing Materials Ceramic Pastes
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