The C100 ceramic core 3D printer is ideal for research and development purposes, this system has a smaller printing platform of 100 x 100 x 150 mm. Complete set up takes under 20 minutes including uploaded software, CAD models and filling the material delivery system. This system uses the least amount of material possible to print your required design.
The C900 FLEX system has a build platform of 300 x 300 x 100 mm, this system is ideal for small to medium production runs. This system also comes with a hybrid option that allows the user to print with multi materials, combine up to 3 materials or print parts that are composed of several different ceramics with differing densities.
The C3600 system is ideal for mass production or for printing large parts such as industrial gas turbine vanes and blades. The C3600 has the biggest build platform on the market of 600 x 600 x 300 mm. This system has been specially developed for the printing of larger parts or a series of smaller parts for production purposes.
The CeraKleaner is a optimised cleaning hood for the removal of non-polymerised paste, it is also used to recover liquid waste, with dimensions of 950 x 750 x 1800 mm and a weight of only 115 kg this is an ideal space saving solution.
This high temperature tube furnace is equipped with (Si-SiC) heating elements, with a maximum temperature of 1300 degrees Celsius. This system has a cooler jacket in order to be chilled, the chemical composition of the heating elements is key to successful debinding. The heating elements are controlled by solid state relays for very precise temperature control.
Our sintering kilns are the ideal partner for your 3D printing systems, with a maximum operating temperature of 1750 degrees Celsius. All of our sintering kilns can be customised to your exact requirements. Our systems excel due to short ramp times and lower power usage, they have a double walled housing with forced cooling that delivers a very low outer-wall temperature.
Excellent mechanical properties, chemical inertness and fantastic hardness.
Yttria-stabilized zirconia, mainly used in the production of fuel cells.
A very resistant material with low density, excellent resistance to thermal shock and excellent wear and corrosion resistance, it also possesses good electrical insulation.
Excellent resistance to wear and thermal shock, this material is also biocompatible.
This material is excellent for producing ceramic cores for investment casting and foundry applications, it also has several optical applications.
This material demonstrates good mechanical behaviour and excellent thermal conductivity.
The composition of this material is very close to the composition of bone and is ideal for biomedical applications.
Cordierite materials deliver low CTE and thermal conductivity, it is wear resistant and good for vacuum applications.
This material has been specially formulated to produce world class, highly complex 3D printed ceramic cores for investment casting. This material is stable at high temperature, has high mechanical resistance and is easily removed post casting.