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THE FUTURE BEGINS TODAY

We develop 3D printers and high-speed 3D printing technologies. We design and manufacture photopolymeric materials for fast layer-by-layer production. We are a start-up and are interested in investing.

Photopolymer resins for 3D printing
At Sprybuild, we develop photopolymers for 3D printing for use in dental laboratories and industrial production. The Sprybuild portfolio includes p...
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3D printers
High speed, high precision 3D printer for dental laboratories and jewelry workshops.  Excellent tool for fast production of working and burned...
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Industrial CPWC 3D printer with high-speed continuous 3D printing technology
Provides high-speed production of  scorched foundries  electroforming molds  consumer product models I...
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CICE 3D printer with technology of fast products manufacturing from elastomeric photopolymers
Options Print area  240x135x400 Maximum speed (depends on step by Z). Accuracy of XY 0.06mm Minimum layer by Z 0.05 mm Heating ...
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Software
The 3D printing modeling and process management software we are developing at Sprybuild includes: Software tools for processing digital 3D models: ...
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Sprybuild

The Sprybuild company was established in 2016 by engineer and entrepreneur Oleg Khalip in Ukraine, now the company's divisions are located in Zaporozhye and Kiev. At Sprybuild, we create technologies, equipment and materials for high-speed additive manufacturing, taking care of natural resources conservation and ensuring the highest standards of environmental safety.

Technologies

HIGH SPEED CONTINUOUS 3D PRINTING TECHNOLOGY - CPWC

The technology of high-speed continuous printing from liquid photopolymer, invented and developed at Sprybuild, is based on the transformation of the actinine radiation wavefront.

Rapid continuous three-dimensional product formation is performed at maximum speed with continuous unidirectional motion.

Large sizes are possible in the construction field. 

Print speed 8 - 15 millimeters per minute or more, along the vertical axis of the construction. 

CPWC allows the use of a variety of photopolymerizable liquids and is perfectly suited for the production of large burnable foundry models.

Devices using CPWC technology can be manufactured using commercially available technologies and components. 

CPWC technology is applicable to both budget and professional systems and can also be used for rapid prototyping and modeling of electroplastics.

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Technology for fast production of large products from flexible and elastomeric materials CICE

The products are formed during immersion in a container with photopolymeric composition at continuous exposure.

CICE technology is characterized by high speed, the products are not subject to tensile stress during production.

The technology provides speeds up to 5 millimeters per minute along the vertical axis of the construction.

CICE printers are perfect for production systems due to their high reliability and performance.

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Technology of fast manufacturing of dental models - printing with active interface

Technology of layer-by-layer exposure with manipulations of the moving surface of the interface in the process of moving the formed product can significantly reduce the technological time for layer-by-layer printing, reduce the thickness of the layer and increase accuracy. 

An adaptive algorithm with strain-gauge feedback is used to control the manipulations of the moving surface of the interface.

Heating of the working chamber provides an opportunity to work with high-viscosity and filled with photopolymer compositions.

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Solutions

Our designs are results of the years of experience, teamwork, skills, technical competence and passion of each member of our Engineering Team, ensuring a fully integrated, sustainable, functional, enduring and aesthetically designed edifice.

Blog

Mechanical tests of the Sprybuild high-speed dental printer - 28.02.2021

The moment of waiting for the result and a great result even before the calibration: the resulting Z-axis movement error is 0.5 µm per ten mm!

Accuracy of 25 µm is achieved - 26.02.2021

With a pixel size of 47 µm, we achieved a precision of 25 µm thanks to Sprybuild refining contours algorithm! This is a good result for subpixel printing.

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