Technology and equipment for hypersonic metallization
COUNTRY OF ORIGIN
BelarusIDENTIFIER
TO4560PUBLISHED
2021-12-16LAST UPDATE
2024-09-21DEADLINE
Linked profile in other language
Responsible
Yuri Vrazhkin
+375 17 337 7626
p_v_s@tut.by
+375 17 337 7626
p_v_s@tut.by
Summary
The Jount Institute of Mechanical Engineering offers customers hypersonic metallization technology under a commercial agreement with technical assistace and equipment, including post-warranty service and possible further improvement of the technological process under a manufacturing agreement, and is also looking for partners to conclude a technical cooperation agreement, including the provision of services for applying coatings to parts using hypersonic metallization technology.
Description
Technological processes and equipment (GM-4 unit) for restoration, strengthening and protection of surfaces of rapidly wearing machine parts and structural elements. Formation of wear-resistant chromium-containing coatings instead of galvanic chromium plating. Application of tribotechnical coatings in the manufacture of bimetallic plain bearings. Application of conductive coatings on ceramics and polymers. Protection of polymer housings of electronic equipment from the effects of powerful electromagnetic fields. Application of bactericidal and decorative coatings. Protection of metal structure elements of port facilities and offshore platforms in the oil and gas industry, power transmission line supports, construction and installation structures, food industry equipment.
In the CIS countries, more than 100 units of equipment for applying protective coatings from powder and wire materials using gas-thermal methods are purchased annually, with imported equipment accounting for more than 85%. Foreign analogues use applied materials produced only abroad for operation.
Hypersonic metallization technology differs from traditional electrometallization by using a continuous energy source to heat the gas that sprays the wires melted in the arc. The gas, heated to a temperature of about 2000 °C, flows out through a Laval nozzle and acquires a speed of 900...1300 m/s, which allows the particles of the sprayed material to accelerate to speeds of more than 400 m/s.
Purpose:
- for restoration (strengthening) of worn cylindrical surfaces (brake drums, shaft journals, axles, working in pairs with rolling (sliding) bearings)
- for restoration (strengthening) of flat parts (guides, friction disks)
- protection against corrosion of parts, elements of structures and buildings
- production of bimetallic "steel - bronze" pistons instead of solid bronze ones.
Equipment is manufactured, and a number of technological processes for applying wear-resistant, corrosion-resistant, antifriction coatings to machine parts and structural elements have been developed.
Recommendations for the organization of specialized areas have been developed.
Information on the technology and equipment for hypersonic metallization is contained in "Catalog of Products and Services of the Joint Institute of Mechanical Engineering" 2018 , p.14.
Information also is posted in the Album of promising developments of the NAS of Belarus organizations for the real sector of the economy (2023), p. 88-90. (in Russian)
In the CIS countries, more than 100 units of equipment for applying protective coatings from powder and wire materials using gas-thermal methods are purchased annually, with imported equipment accounting for more than 85%. Foreign analogues use applied materials produced only abroad for operation.
Hypersonic metallization technology differs from traditional electrometallization by using a continuous energy source to heat the gas that sprays the wires melted in the arc. The gas, heated to a temperature of about 2000 °C, flows out through a Laval nozzle and acquires a speed of 900...1300 m/s, which allows the particles of the sprayed material to accelerate to speeds of more than 400 m/s.
Purpose:
- for restoration (strengthening) of worn cylindrical surfaces (brake drums, shaft journals, axles, working in pairs with rolling (sliding) bearings)
- for restoration (strengthening) of flat parts (guides, friction disks)
- protection against corrosion of parts, elements of structures and buildings
- production of bimetallic "steel - bronze" pistons instead of solid bronze ones.
Equipment is manufactured, and a number of technological processes for applying wear-resistant, corrosion-resistant, antifriction coatings to machine parts and structural elements have been developed.
Recommendations for the organization of specialized areas have been developed.
Information on the technology and equipment for hypersonic metallization is contained in "Catalog of Products and Services of the Joint Institute of Mechanical Engineering" 2018 , p.14.
Information also is posted in the Album of promising developments of the NAS of Belarus organizations for the real sector of the economy (2023), p. 88-90. (in Russian)
Advantages and Innovations
Obtaining the effect of "closing through porosity" at thicknesses of about 75-80 μm;
- increased adhesion strength (up to 60 MPa), withstanding high contact loads under impact loading;
- minimal oxidation of the sprayed material and burnout of alloying elements;
- flight speed of sprayed particles 400-500 m/s;
- productivity when spraying steels up to 18 kg/h.
The most economical method in the world, the cost of the process of applying 1 kg of coating on the GM-4 unit excluding the cost of the applied material is 5-10 US dollars (reducing operating costs by 2-5 times compared to foreign high-speed spraying units).
The developed technological processes are environmentally friendly and meet the requirements for technical means of welding production.
For applying coatings by the hypersonic metallization method, the use of cylinder oxygen is not required; the heating of the melting wires is carried out in an electric arc; dispersion of the molten material and acceleration of the formed particles occurs under the action of a jet of combustion products of a propane-air flame coming out of the combustion chamber equipped with a Laval nozzle, while the flow speed reaches 1500 m/s. To operate the equipment, a welding power source, a propane cylinder and an air compressor are required, which makes it possible to carry out the restoration process directly at the place of operation of the parts. This is especially important when applying coatings to large-sized products - the hulls of sea and river vessels, containers for the transportation of radioactive waste, diffusion screw devices for sugar production, etc.
- increased adhesion strength (up to 60 MPa), withstanding high contact loads under impact loading;
- minimal oxidation of the sprayed material and burnout of alloying elements;
- flight speed of sprayed particles 400-500 m/s;
- productivity when spraying steels up to 18 kg/h.
The most economical method in the world, the cost of the process of applying 1 kg of coating on the GM-4 unit excluding the cost of the applied material is 5-10 US dollars (reducing operating costs by 2-5 times compared to foreign high-speed spraying units).
The developed technological processes are environmentally friendly and meet the requirements for technical means of welding production.
For applying coatings by the hypersonic metallization method, the use of cylinder oxygen is not required; the heating of the melting wires is carried out in an electric arc; dispersion of the molten material and acceleration of the formed particles occurs under the action of a jet of combustion products of a propane-air flame coming out of the combustion chamber equipped with a Laval nozzle, while the flow speed reaches 1500 m/s. To operate the equipment, a welding power source, a propane cylinder and an air compressor are required, which makes it possible to carry out the restoration process directly at the place of operation of the parts. This is especially important when applying coatings to large-sized products - the hulls of sea and river vessels, containers for the transportation of radioactive waste, diffusion screw devices for sugar production, etc.
Stage of development
Already on the market
Funding source
State budged
Internal
Internal
IPR status
Exclusive rights
Patents granted
Secret know-how
Patents granted
Secret know-how
Comments regarding IPS status
Intellectual property documents can be found at Album of promising developments of the NAS of Belarus organizations for the real sector of the economy (2023), p. 89-90. (in Russian)
Sector group
Aeronautics, Space and Dual-Use Technologies
Agrofood
Environment
Maritime Industry and Services
Materials
Mobility
Agrofood
Environment
Maritime Industry and Services
Materials
Mobility
Organization information
Type
R&D institution
Year established
1957
NACE keywords
C.28.29 - Manufacture of other general-purpose machinery n.e.c.
C.30.99 - Manufacture of other transport equipment n.e.c.
M.72.19 - Other research and experimental development on natural sciences and engineering
M.74.90 - Other professional, scientific and technical activities n.e.c.
C.30.99 - Manufacture of other transport equipment n.e.c.
M.72.19 - Other research and experimental development on natural sciences and engineering
M.74.90 - Other professional, scientific and technical activities n.e.c.
Turnover (in EUR)
10-20M
Already engaged in transnational cooperation
Yes
Additional comments
The Joint Institute of Mechanical Engineering of the National Academy of Sciences of Belarus is the leading institute of the Republic of Belarus in the fields of:
fundamental and applied scientific research:
- mechanical engineering, mechanics, reliability and safety of machines and technical systems;
- design theory, mechatronic systems of machines and mechanisms;
- new composite, polymer, metallic materials; nano- and microstructured materials;
- friction and wear in machines, control of surface structure and properties, including at the nanostructural level.
scientific and technical activities:
- scientific support, organization and coordination of work on the creation of export-oriented automotive, tractor and combine equipment equipped with multi-level integrated electronic systems for adaptive control and diagnostics of units and assemblies, including mechatronic components and intelligent devices of high-energy tractors and combines, trucks and road trains, including multi-link modular type super low-floor articulated buses 2-, 3-section, with hybrid power plants, quarry dump trucks with a lifting capacity of 95-500 tons, multi-axle wheeled tractors, logging equipment, road construction, municipal equipment, urban electric transport.
Other areas of activity:
- certification of mobile machines, items of their equipment and parts, approval of vehicle types;
- bench, road tests, diagnostics of the technical condition of mobile machines;
- certification of quality management systems for compliance with the requirements of STB ISO 9001–2009;
- training of highly qualified scientific personnel;
- conducting patent research;
- publishing scientific, industrial-practical, normative industrial-practical, reference publications;
- publishing the international scientific and technical journal “Mechanics of Machines, Mechanisms and Materials”;
- publishing a collection of scientific papers “Topical Issues in Mechanical Engineering”.
The Institute develops scientific and scientific-technical cooperation, business relations with foreign partners and represents Belarus in the International Federation for the Theory of Mechanisms and Machines (IFToMM).
A number of contracts, agreements and protocols on cooperation with foreign and international scientific organizations, higher educational institutions, and governing bodies in the field of scientific and technical activities have been signed.
Currently, agreements reached with a number of foreign partners are being implemented in the following countries: Russian Federation, Republic of Kazakhstan, People's Republic of China, Federal Republic of Germany, Republic of Austria, Georgia, Republic of Latvia, Republic of Lithuania, Republic of Poland, Republic of Korea, Ukraine, etc.
fundamental and applied scientific research:
- mechanical engineering, mechanics, reliability and safety of machines and technical systems;
- design theory, mechatronic systems of machines and mechanisms;
- new composite, polymer, metallic materials; nano- and microstructured materials;
- friction and wear in machines, control of surface structure and properties, including at the nanostructural level.
scientific and technical activities:
- scientific support, organization and coordination of work on the creation of export-oriented automotive, tractor and combine equipment equipped with multi-level integrated electronic systems for adaptive control and diagnostics of units and assemblies, including mechatronic components and intelligent devices of high-energy tractors and combines, trucks and road trains, including multi-link modular type super low-floor articulated buses 2-, 3-section, with hybrid power plants, quarry dump trucks with a lifting capacity of 95-500 tons, multi-axle wheeled tractors, logging equipment, road construction, municipal equipment, urban electric transport.
Other areas of activity:
- certification of mobile machines, items of their equipment and parts, approval of vehicle types;
- bench, road tests, diagnostics of the technical condition of mobile machines;
- certification of quality management systems for compliance with the requirements of STB ISO 9001–2009;
- training of highly qualified scientific personnel;
- conducting patent research;
- publishing scientific, industrial-practical, normative industrial-practical, reference publications;
- publishing the international scientific and technical journal “Mechanics of Machines, Mechanisms and Materials”;
- publishing a collection of scientific papers “Topical Issues in Mechanical Engineering”.
The Institute develops scientific and scientific-technical cooperation, business relations with foreign partners and represents Belarus in the International Federation for the Theory of Mechanisms and Machines (IFToMM).
A number of contracts, agreements and protocols on cooperation with foreign and international scientific organizations, higher educational institutions, and governing bodies in the field of scientific and technical activities have been signed.
Currently, agreements reached with a number of foreign partners are being implemented in the following countries: Russian Federation, Republic of Kazakhstan, People's Republic of China, Federal Republic of Germany, Republic of Austria, Georgia, Republic of Latvia, Republic of Lithuania, Republic of Poland, Republic of Korea, Ukraine, etc.
Languages spoken
English
Russian
Russian
Information about partnership
Type of partnership considered
Commercial agreement with technical assistance
Manufacturing agreement
Technical cooperation agreement
Manufacturing agreement
Technical cooperation agreement
Type and role of partner sought
Customers interested in purschasing hypersonic metallization technology on a commercial agreement with technical assistance and equipment, including post-warranty service, possible further improvement of the process technology under a manufacturing agreement.
Partners interested in the development of hypersonic metallization technology, including the acquisition of coating services on parts under a technical cooperation agreement.
Partners interested in the development of hypersonic metallization technology, including the acquisition of coating services on parts under a technical cooperation agreement.
Type and size of partner sought
> 500 MNE
> 500
251-500
SME 51-250
SME 11-50
SME <= 10
R&D Institution
Sole proprietor
> 500
251-500
SME 51-250
SME 11-50
SME <= 10
R&D Institution
Sole proprietor
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Statistics since 16.12.2021 15:36:34
Statistics since 16.12.2021 15:36:34