3DCeram – Dev

Fila-MAT Metal Copper 1,75mm

Ashkhen — Tue, 08 Jul 2025 08:48:30 +0000

FEATURES

Metal Copper filament is an innovative 3D printing material that offers the distinctive look and properties of copper in an easy-to-use format. Formulated with a blend of fine copper particles and a thermoplastic binder, this filament allows you to create stunning metallic prints with an authentic copper finish. One of the standout features of Metal Copper filament is its excellent electrical conductivity, making it suitable for applications that require electrical connections or conductive pathways.

Additionally, it boasts impressive mechanical properties, ensuring that your printed parts are both strong and durable. Compatible with Fused Filament Fabrication (FFF) printers, Metal Copper filament provides the flexibility to create intricate designs and detailed geometries. Its unique composition allows for smooth extrusion and reliable layer adhesion, resulting in high-quality prints with a beautiful metallic sheen.

Ideal for functional prototypes and decorative items, Metal Copper filament opens up a world of creative possibilities.

Whether you’re designing jewelry, custom fixtures, or electronic housings, this filament delivers both aesthetic appeal and performance.

Applications:

• Artistic sculptures and decorative items

• Functional prototypes requiring conductivity

• Custom jewelry and accessories

• Electronic housings and components

• Architectural models with a metallic finish

Advantages:

• Authentic copper appearance with a metallic finish

• Excellent electrical conductivity

• Strong and durable prints

• Easy to print with FFF technology

• Versatile for a wide range of applications

M.A.T. is an Additive Manufacturing (AM) solution for the production of complex geometries made out of metals and ceramics. With the M.A.T., 3DCERAM TIWARI utilizes the Fused Filament Fabrication (FFF) technique to produce ceramic and metallic parts with a 3D-printer working with special filaments. The 3D- printed parts are then eliminated of any non-metallic or non-ceramic component (binder) with the help of heat treatment at high temperatures, yielding pure and resistant parts suitable for all engineering applications in a matter of days. This cost-effective technique is suitable for a number of metals and ceramics, including metal-ceramic or ceramic-ceramic composites, and is capable of producing parts with high relative density.

Diffusivity:

Temperature °C	Diffusivity, α,mm^2/s
-90.1	68.72
-70.3	69.38
-45.3	69.72
-24.2	69.03
+26.4	70.33
+51.6	74.7
+90.9	77.47

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Fila-MAT Alumina 1,75mm

Ashkhen — Tue, 08 Jul 2025 07:41:33 +0000

FEATURES

Discover high-performance silicon carbide filament suitable for advanced thermal and electrical applications. Enhance your manufacturing with durable, heat-resistant, and electrically conductive silicon carbide filament.

Silicon carbide (SiC) filament is a specialized material designed for high-temperature and electrically demanding environments. Composed of finely grained silicon carbide particles spun into a filament, this material combines the exceptional properties of silicon carbide with processability for various manufacturing needs.

Known for its outstanding thermal conductivity and stability, silicon carbide filament can withstand temperatures exceeding 1600°C, making it ideal for aerospace, automotive, and industrial applications. Its high hardness and chemical inertness ensure durability and longevity, even in corrosive environments. Additionally, SiC filament exhibits good electrical conductivity, making it suitable for electronic components, heating elements, and resistive heating applications.

Key Features:

High thermal stability and conductivity
Superior mechanical strength and hardness
Chemical inertness and corrosion resistance
Excellent electrical conductivity
Suitable for high-temperature environments

This filament is compatible with advanced manufacturing processes like 3D printing, allowing for the creation of complex, high-performance components with precision and efficiency. Its lightweight yet robust nature offers designers and engineers the flexibility to innovate in high-performance material development.

Applications:

3D printing of heat-resistant components
Thermal insulation and heat shields
Electrical resistors and heating elements
Aerospace and automotive parts
Chemical processing equipment

All tests have been performed according relevant standards with calibrated test equipment at ESA’s technology centre in the Netherlands (ESTEC).

Diffusivity:

Temperature °C	Diffusivity, α,mm^2/s
-99.7	73.859
-75.3	65.278
-50.6	57.079
-25.3	49.534
+23.6	39.24
+49.9	35.156
+100.7	28.842

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Fila-MAT Metal 174PH 1,75mm

Ashkhen — Mon, 07 Jul 2025 16:00:25 +0000

FEATURES

174PH filament is a cutting-edge material specifically engineered for advanced metal additive manufacturing. Composed of finely processed 174PH stainless steel, this filament enables the direct 3D printing of intricate, durable components with superior surface finish and mechanical performance.

Known for its outstanding heat resistance and strength, 174PH is widely utilized in demanding environments such as aerospace and automotive industries. Its unique composition provides excellent durability while maintaining lightweight properties, making it suitable for high-performance applications.

The filament’s ability to withstand elevated temperatures ensures reliability in critical components subject to thermal stress.

The 174PH filament allows manufacturers to produce complex geometries with high accuracy and minimal waste. This significantly reduces lead times and costs compared to traditional manufacturing methods. With its impressive strength, heat resistance, and versatility, 174PH filament is perfect for creating functional parts, prototypes, and custom components that require both durability and precision.

Applications:

• Aerospace components and structures

• Automotive parts requiring heat resistance

• Industrial machinery and tools

• Prototypes for high-performance applications

• Custom fixtures and specialized equipment

Advantages:

• Exceptional heat resistance and strength

• Lightweight yet durable

• Suitable for complex designs with high precision

• Compatible with various sintering and finishing processes

• Ideal for applications demanding performance and reliability

All tests have been performed according relevant standards with calibrated test equipment at ESA’s technology centre in the Netherlands (ESTEC).

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Fila-MAT Metal 316L 1,75mm

Ashkhen — Fri, 04 Jul 2025 16:07:14 +0000

FEATURES

Alumina filament is an innovative material specifically engineered for advanced ceramic additive manufacturing. Composed of finely processed alumina, this filament enables the direct 3D printing of intricate, durable components with superior surface finish and mechanical performance.

Renowned for its remarkable heat resistance and strength, Alumina is widely utilized in demanding environments such as aerospace and automotive industries. Its unique composition provides excellent durability while remaining lightweight, making it suitable for high-performance applications. The filament’s ability to withstand elevated temperatures ensures reliability in critical components subjected to thermal stress.

Compatible with cutting-edge 3D printing techniques like Fused Filament Fabrication (FFF), Alumina filament allows manufacturers to produce complex geometries with high accuracy and minimal waste. This significantly reduces lead times and costs compared to traditional manufacturing methods.

With its impressive strength, heat resistance, and versatility, Alumina filament is perfect for creating functional parts, prototypes, and custom components that require both durability and precision.

Applications:

• Aerospace components and structures

• Automotive parts requiring heat resistance

• Industrial machinery and tools

• Prototypes for high-performance applications

• Custom fixtures and specialized equipment

Advantages:

• Exceptional heat resistance and strength

• Lightweight yet durable

• Suitable for complex designs with high precision

• Compatible with various finishing processes

• Ideal for applications demanding performance and reliability

All tests have been performed according relevant standards with calibrated test equipment at ESA’s technology centre in the Netherlands (ESTEC).

Diffusivity:

Temperature °C	Diffusivity, α,mm^2/s
-100.8	34.01
-76	26.847
-51.7	20.682
-24.9	16.416
23.7	11.407
50.3	9.676
100.5	7.51

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Fila-MAT Silicon Carbide 1,75mm

Ashkhen — Fri, 04 Jul 2025 15:46:18 +0000

FEATURES

Key Features:

High thermal stability and conductivity
Superior mechanical strength and hardness
Chemical inertness and corrosion resistance
Excellent electrical conductivity
Suitable for high-temperature environments

Applications:

3D printing of heat-resistant components
Thermal insulation and heat shields
Electrical resistors and heating elements
Aerospace and automotive parts
Chemical processing equipment

All tests have been performed according relevant standards with calibrated test equipment at ESA’s technology centre in the Netherlands (ESTEC).

Diffusivity:

Temperature °C	Diffusivity, α,mm^2/s
-99.7	73.859
-75.3	65.278
-50.6	57.079
-25.3	49.534
+23.6	39.24
+49.9	35.156
+100.7	28.842

The post Fila-MAT Silicon Carbide 1,75mm appeared first on Dev.

Fila-MAT Metal Titanium 1,75mm

Ashkhen — Fri, 04 Jul 2025 14:57:15 +0000

FEATURES

Experience unmatched strength and lightweight durability with our premium Titanium 3D Printing Filament. Perfect for aerospace, automotive, medical, and high-precision engineering applications, our titanium filament offers superior corrosion resistance, excellent thermal stability, and outstanding mechanical properties.

Key Features:

High Strength-to-Weight Ratio: Achieve robust and durable parts without adding unnecessary weight.
Corrosion Resistant: Ideal for applications in harsh environments and long-term use.
Excellent Surface Finish: Produces smooth, high-quality prints with fine details. –
Biocompatibility: Suitable for medical prototypes and implants.

All tests have been performed according relevant standards with calibrated test equipment at ESA’s technology centre in the Netherlands (ESTEC).

Diffusivity:

Temperature °C	Diffusivity, α,mm^2/s
-100.9	2.418
-74.9	2.526
-49.4	2.423
-24.1	2.603
+1	2.768
+29	2.803
+50.5	2.877

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C1000 Flexamatic

Alena Kalininskaya — Thu, 15 Aug 2024 01:04:44 +0000

3D PRINTING WITHOUT SUPPORTS: CERAMIC SLA

Top-down stereolithography allows for printing without supports by building the part from the bottom up as the tray moves down. 3DCeram is capable of producing precise and detailed parts consistently.

The printing material is fed into a cartridge at the start of the printing cycle, making it easy to refill the cartridge during printing.

Additionally, 3DCeram’s top-down stereolithography process is suitable for a wide range of materials, including ceramics and advanced composites, enabling the production of parts with high mechanical and thermal properties.

This technology is particularly well-suited for applications in industries such as aerospace, automotive, and medical, where high-performance and precise parts are required.

C101 EASY LAB: THE POSSIBILITY TO DEVELOP YOUR OWN PROCESS

Open parameters

Printer dedicated to research centers and universities for research and development

Optimization of the printing precision elements (mechanical and optical)

Accessible to people with reduced mobility

Easy to use

Printing with the right amount of ceramic

60 mL of ceramic is enough to start a print or 10 mL with the SAM (Small Amount of Material) option

180 mL, 360 mL, 600 mL and 920 mL cartridges available

Optimized accessibility

APPLICATION

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

Alumina (AI203)
Used more often than any other advanced ceramics. Very good mechanical resistance,electrical resistance, high hardness, corrosion and wear resistance, high operating temperature and chemically and bio- inert.

Zirconia (ZrO2)
Useful in surgical instrumentation and odontology prosthesis (crowns and bridges),porous coating dentistry: material with very good mechanical properties, great hardness,good wear resistance, corrosion resistant.

Silicon Nitride
One of the hardest and most thermally resistant ceramics. The main characteristics of silicon nitride are: low density, excellent resistance to thermal shock, excellent resistance to wear, and low thermal expansion
coefficient.

Cordierite
Cordierite is a magnesium alumina silicate with chemical formula 2MgO.2Al2O3. 5SiO2 Cordierite can be used due to low thermal conductivity and low expansion coefficient, resistance to heat and low dielectric loss.

Aluminium Nitride
The main characteristics of aluminium nitride are: high thermal resistance, excellent electrical insulation and good mechanical strength. Main application of this material is electronic industry

Zirconia 8Y
This material has excellent ionic conductivity and heat insulation properties. Main application of this ceramic material is manufacturing of solid fuel cells.

MASS CUSTOMIZATION, MOVE TOWARD WITH ADDITIVE MANUFACTURING

The versatility of 3D printing technology offers unique benefits across various industries, making it an intriguing and adaptable tool.

The use of 3D printing for technical ceramics introduces new possibilities for applications by optimizing designs and overcoming limitations inherent in traditional production methods such as machining.

With a strong background in additive manufacturing, 3DCeram is well-equipped to understand and meet the diverse needs of different customers. Drawing from our experience, we have honed our expertise to advance the technology and address industrial demands, focusing on developing a mass production method that is also customizable.

To meet these industrialization requirements in 3D printing technical ceramics, we have introduced the C3600 ULTIMATE, an industrial printer designed to handle large parts or produce significant quantities of small, uniform, or diverse parts on its 600x600x300 mm build platform.

In the journey towards industrial-scale production, the development phase is crucial. This is why the C100 EASY FAB complements the C3600 ULTIMATE, providing a stepping stone to help you progress towards your goals effectively.

Additional equipment

Installation of post-processing models – allows you to easily remove unpolymerized paste.
Furnaces for removing photopolymer (in oxygen and nitrogen environment) and sintering of parts (in a professional environment)

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C101 HYBRID

Alena Kalininskaya — Wed, 07 Aug 2024 17:30:52 +0000

The C101 HYBRID is a 3D printer produced by 3DCeram, a manufacturer based in France.
It uses the Stereolithography technology to produce alumina, aluminum nitride, hydroxyapatite, silica-based, silicon nitride, tricalcium phosphate, zirconia and ceramics parts using liquid feedstock. It offers a build volume of 100 × 100 × 150 mm.

3D PRINTING WITHOUT SUPPORTS: CERAMIC SLA

The printing material is fed into a cartridge at the start of the printing cycle, making it easy to refill the cartridge during printing.

This technology is particularly well-suited for applications in industries such as aerospace, automotive, and medical, where high-performance and precise parts are required.

APPLICATION

Aerospace hardware

Ceramic foundry cores

Biomedical advances

Expanded industry

For the benefit of research

MATERIALS

Zirconia 8Y
This material has excellent ionic conductivity and heat insulation properties. Main application of this ceramic material is manufacturing of solid fuel cells.

MASS CUSTOMIZATION, MOVE TOWARD WITH ADDITIVE MANUFACTURING

Additional equipment

Installation of post-processing models – allows you to easily remove unpolymerized paste.
Furnaces for removing photopolymer (in oxygen and nitrogen environment) and sintering of parts (in a professional environment)

The post C101 HYBRID appeared first on Dev.

M.A.T.

Ashkhen — Tue, 31 Jan 2023 16:40:12 +0000

Powerful 3D Printer for Metals, Ceramics and more: CNC + Robocasting, all in one

MAT embraces versatility, extending its functionality to include CNC machining and robocasting.
The sturdy frame of this system offers a swift transition from 3D printing to CNC machining in one single step, enabling users to process green parts for an improved surfaced finish in comparison to other 3D printing solutions.
Additionally, Robocasting allows the extrusion of ceramic slurry through a nozzle. This process provides flexibility and adaptability to combine materials, facilitating a smooth transition between FFF and robocasting techniques.

Safe and easy to use: Ideal for a Workshop or Laboratory environment

Prioritizing safety without compromising functionality, the MAT has been designed to fit seamlessly into your lab or workshop.
By using a binder matrix in which fine ceramic powder and metal are dispersed, we’ve ensured a secure production process, eliminating the hazards often associated with powders, lasers, and other risks.
With its very intuitive design and the use of FFF technology, MAT eliminates the safety risks related to LPBF, such as lasers and metal powder, at the time it reduces the need for PPE to the minimum.
Its integrated filtration system eliminates over 99.99% of particles larger than 300 nm, thereby ensuring a clean and safe operational environment.

High Density and Strength for your Parts

The M.A.T. system takes advantage of the main strengths of Fused Filament Fabrication (FFF) to deliver metal 3D-printed parts with outstanding density and strength.
Thanks to the layer-by-layer deposition and sintering process, the metal particles are densely packed and fused, resulting in parts that can withstand high operational demands.

TITANIUM

PROPERTIES

High strenght to weight ratio
Low thermal conductivity
Low CTE
Bio compatible

APPLICATIONS

Aeronautics
Space
Biomedical
Luxury

SPECIFICATIONS

Titanium: Ti6AI4V (Aerospace grade)
Bulk density (g/cc): 4.33
Thermal Conductivity at 30C (W/m-K): 6.8
CTE (ppm/C): 9.8
Ultimate tensile strength: 940 MPa

Silicon Carbide (SiC)

Titanium (Ti6Al4V)

Aluminum Oxide (Al2O3)

Easy Operation System with no Special Installation Requirements

With the M.A.T., the manufacturing of technical ceramic and metal parts becomes a straightforward task.
By incorporating shaping technologies, CNC machining, and robocasting in one device, M.A.T. simplifies the process of producing complex-shaped functional parts.
The operation of the M.A.T. system is designed to be user-friendly, allowing you to create components that are significantly less costly
than those produced by conventional fabrication methods, and the whole system can fit in a workshop or lab with no special installation
requirements.

Easy Operation System with no Special Installation Requirements

The first step is printing, where M.A.T seamlessly transforms your digital designs into physical reality. Utilizing its advanced technology, this 3D printer meticulously deposits layers of metal and ceramic materials with precision and accuracy, ensuring optimal part quality.
Next comes the debinding stage, where any residual binders are carefully removed from the printed parts.
In the sintering stage, the printed parts undergo a controlled heat treatment process, fusing the metal or ceramic particles together to achieve exceptional strength, durability, and mechanical properties, to ensure high-quality, fully functional parts that meet the most demanding requirements.
With M.A.T by 3D Ceram, the production of functional metal and ceramic parts has never been easier. Experience the power of a seamless 3-step process, unlocking limitless possibilities for industries ranging from aerospace and automotive to medical and beyond.

Only Technology for metals and ceramics with the ability to produce with custom infill

Material deposition used by the M.A.T. is the
only technology in the market capable of building parts with customized infill. This offers the ability to tailor the internal structure of your parts to optimize for specific performance attributes such as weight, strength, or material usage, enabling the production of parts that are not only robust and high-performing but also perfectly tailored to the specific needs of your application.

M.A.T. sample part

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