Our projects
Since 2004, we have successfully implemented more than 40 projects and some of them are presented below...
Frontal wide-range irrigation machine
Experimental wide-range irrigation system of frontal type based on a FGRP pipeline.
| Year: | 2018 - 2019 |
| Revision: | 11 |
| Parts and assemblies developed: | > 230 |
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Experimental wide-range irrigation machine has six in-line and one frontal carts.
The control of the machine is centralized by an on-board computer located on the frontal cart.
The main pipeline is made of FGRP, has a diameter of DN150 and DN100.
The distance between the carts is 30 m, the total length of the machine is 180 m.
Drive of carts are the motor-reducers on each axis.
Operating pressure is 3 bar (43.5 psi).
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Experimental production line
Equipment for processing sludge in settling tanks of sewage treatment plants into organic fertilizers.
| Year: | 2018 |
| Revision: | 15 |
| Parts and assemblies developed: | > 220 |
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The technology of production a bidirectional screw with a length of 4 m, a diameter of external turns of 1.5 m has been developed.
A unique two-stage power drive has been developed for rotating the agitator auger when loading up to 6m³ of viscous consistency and high plasticity raw.
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Exploration of the stability of the FGRP tubing in a vertical well
Development of a mathematical model for predicting the stability of tubes from fiberglass in the annular space of a vertical well.
| Year: | 2018 |
| Revision: | 4 |
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A mathematical model of stability of the FGRP tubing string in a vertical well has been developed.
A software for explore the string of FGRP tubing within the framework of the constructed model is developed.
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Bench for mechanical testing
Equipment for implementing a complex mechanical tests of geophysical device housings.
| Year: | 2016 |
| Revision: | 20 |
| Parts and assemblies developed: | > 80 |
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The bench allows to test samples with a diameter of 80 mm to 200 mm, length up to 4.2 m.
The problem of creating a complex stress-strain state torsion + tension/compression has been solved.
The developed torque is up to 15 kN · m, axial forces up to 250 kN.
Installation of samples on the bench by means of end-rods with locking threads Z-76 according to GOST R 50864-96.
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The production line for FGRP pipes UT-11
Technological line for the production of FGRP pipes with a diameter from DN400 to DN700 in a continuous way.
| Year: | 2014 - 2015 |
| Revision: | 13 |
| Parts and assemblies developed: | > 450 |
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The technological process of winding is fully automated using an industrial computer.
Multi-zone polymerization system with feedback.
The productivity of the plant is up to 4m of pipe DN400 per hour.
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Main drive of a production line UT-11
The main drive unit for the continuous production of FGRP pipes. Implements principal technological movements.
| Year: | 2014 |
| Revision: | 13 |
| Parts and assemblies developed: | > 140 |
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Mechanical drive without feedback hard links.
Ensuring the technological parameters of the process is made by an industrial computer operated of sensors of rotation frequency of driven shafts.
The unique design of the turret unit for the perception of high operational loads acting on the drive mechanisms.
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Hydraulic test bench
Bench for testing of FGRP pipes with a diameter from DN100 to DN300 under static pressure.
| Year: | 2013 - 2014 |
| Revision: | 4 |
| Parts and assemblies developed: | > 70 |
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The problem of testing pipes from 1 meter to 12 meters in length with minimal rearrangement of the bench has been solved.
The frame structure provides a safety factor 4 at a pressure of 25 bar (362.6 psi) inside a DN300 pipe.
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The production line for FGRP pipes UT-9
Technological line for the production of FGRP pipes with a diameter from DN100 to DN300 in a continuous way.
| Year: | 2013 - 2015 |
| Revision: | 29 |
| Parts and assemblies developed: | > 920 |
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The technological process is operated by an industrial computer.
Multi-zone polymerization system with feedback.
The productivity of the plant is up to 8m of pipe DN100 per hour.
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Main drive of a production line UT-9
The main drive unit for the continuous production of FGRP pipes. Implements all technological movements.
| Year: | 2013 - 2014 |
| Revision: | 29 |
| Parts and assemblies developed: | > 200 |
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Tuneable power drive with hard feedback to ensure the technological parameters of the process.
Redesigned crown unit with linear bearings to reduce shock loads on the copier and to ensure a smoother operation of the self-feeding mandrel.
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Magnetic field exploration
Development of the mathematical model of influence of the shape of a magnetic field source on the efficiency of iron ore separation.
| Year: | 2012 |
| Revision: | 5 |
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Experiments were performed to study the effect of a magnetic field on the change of the trajectory of falling iron ore samples.
A specialized software is developed to process experimental data.
A mathematical model based on experimental data has been developed.
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Wind tunnel screen
Screen with variable angle of attack for studying the influence of the media interface on the flow around objects in the wind tunnel T-4.
| Year: | 2010 |
| Revision: | 4 |
| Parts and assemblies developed: | > 80 |
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The screen is made of a layered wood compound with a foam filler and outer covering from FGRP.
Gelcoating technology has been applied to ensure laminar flow on the surface.
The design of the support pillars allows precise positioning of the screen in the operational space of the wind tunnel.
The working plane has special knots for fastening the studied models.
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Device for measuring the depth of the well
Portable device for measuring the depth of a wet well for estimate the weight of tab explosives on open ore mining.
| Year: | 2009 |
| Revision: | 5 |
| Parts and assemblies developed: | > 110 |
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The operational of device is based on the inertial principle.
The device allows to measure the depth of a wet well to the water surface and the total depth (to the bottom of the well).
Maximum measured depth is 20 m.
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