31 March 2020
Mimaki 3DGD-1800 3D
The Mimaki 3DGD-1800 3D facilitates large-scale production up to three times faster than with conventional Fused Filament Fabrication (FFF) type 3D printers and connects the company’s 2D printing expertise and 3D technology innovations.
Capable of producing objects up to 1.8 metres tall in just seven hours – with its assembly-based design allowing for the creation of even larger designs – the innovative 3D printing system boasts a number of clever time- and cost- saving features, including dual-head configuration to enable the simultaneous output of two structures.
The Mimaki 3DGD-1800 also facilitates the production of support-free hollowed structures, further streamlining production whilst allowing for increased portability and the possible addition of interior illuminations. The technology will open up a diverse range of potential applications, from signage, events and creative art through to interior design. Customers can utilise Mimaki’s extensive portfolio of 2D print solutions to cost-effectively decorate these applications, opening doors to a range of new products that combine creativity and innovation with Mimaki’s tried and tested vibrant, high-quality results.
The new Mimaki 3DGD-1800 is set to revolutionise the way in which large-sized objects are created, enabling a switch from costly and time-consuming conventional handcrafting methods which require significant expertise, to effortless, high-speed production utilising 3D data.
Whereas large objects have traditionally been produced by manually sculpting foam materials, Mimaki’s new 3D printing system transforms this process right through from concept to manufacture – meaning that designs can be visualised as a finished product just based on the 3D data, and then produced in various sizes from a single data set. Contrary to other 3D printing methods involving hot-melt lamination, the 3DGD-1800 employs Gel Dispensing Printing technology, extruding gel-type UV curable resin lineally and utilising LED UV light to instantly cure the resin, enabling lamination speeds of up to 350mm in height per hour.