Объединённый институт энергетических и ядерных исследований - Сосны
http://sosny.bas-net.by/
Почтовый адрес: 220109 Минск, а/я 119
http://sosny.bas-net.by/
Почтовый адрес: 220109 Минск, а/я 119
Technology of electrolytic-plasma processing of metals and alloys
COUNTRY OF ORIGIN
IDENTIFIER
TO11715PUBLISHED
2024-10-10LAST UPDATE
2024-10-14DEADLINE
Linked profile in other language
Responsible
Alexander Trifonov
+375293393981
tral@list.ru
+375293393981
tral@list.ru
Summary
Joint Institute of Power and Nuclear Research - Sosny offers consumers the technology of electrolytic-plasma processing of metals and alloys under a commercial agreement with technical assistance, production and supply of equipment under a manufacturing agreement and is looking for partners for the development of the technology under a technical cooperation agreement.
Description
Technology of electrolyte-plasma processing of metals and alloys is used nowadays at many factories in Belarus, Russia, Ukraine, China and other countries.
Technology of electrolyte-plasma processing of surface of the items made of conductive materials is based on usage of spontaneous pulsed electrical discharges in progress close to the surface of the item under processing down-dropped in a pool filled with special solution of non-aggressive chemical elements.
Materials processable
– stainless and low-alloy carbon steel;
non-ferrous metals and their alloys (copper, brass, bronze, cupronickel and others);
– aluminium and its alloys;
– titanium and its alloys, and other conductive materials.
The electrolyte-plasma processing equipment includes three basic components: subordinate module, power supply and control board.
Functions:
– polishing of items with irregular design of various metals and alloys till high luster;
– decorative polishing of composite surfaces;
– parts surfaces preparation for subsequent application of various coatings;
– burrs square-wave stripping and sharp edges rounding-off.
Technical characteristics of the machine
– undulation attainable – Ra, mkm 0.08 – 0.05;
– processing time (depending on the initial and required undulation) 0.5 – 10 min;
– specific energy consumption, 0.05 – 0.5 kWh/dm2.
More information is posted on the Institute's website here.
Technology of electrolyte-plasma processing of surface of the items made of conductive materials is based on usage of spontaneous pulsed electrical discharges in progress close to the surface of the item under processing down-dropped in a pool filled with special solution of non-aggressive chemical elements.
Materials processable
– stainless and low-alloy carbon steel;
non-ferrous metals and their alloys (copper, brass, bronze, cupronickel and others);
– aluminium and its alloys;
– titanium and its alloys, and other conductive materials.
The electrolyte-plasma processing equipment includes three basic components: subordinate module, power supply and control board.
Functions:
– polishing of items with irregular design of various metals and alloys till high luster;
– decorative polishing of composite surfaces;
– parts surfaces preparation for subsequent application of various coatings;
– burrs square-wave stripping and sharp edges rounding-off.
Technical characteristics of the machine
– undulation attainable – Ra, mkm 0.08 – 0.05;
– processing time (depending on the initial and required undulation) 0.5 – 10 min;
– specific energy consumption, 0.05 – 0.5 kWh/dm2.
More information is posted on the Institute's website here.
Advantages and Innovations
Competitive advantages.
Productivity and economic efficiency of technological operations are 5-6 times higher than those of the mechanical method and 3-4 times higher that those of the electrochemical method of processing on the basis of acid solutions.The technology guarantees practically complete ecological safety of the polishing process.
Enhances operational properties of:
– corrosion resistance (a 2.1 times reduction of the corrosion current density on the steel ЭИ 961);
– strength properties, a 10-12% enhancement of the endurance limit;
– resistance to particulate erosion.
Productivity and economic efficiency of technological operations are 5-6 times higher than those of the mechanical method and 3-4 times higher that those of the electrochemical method of processing on the basis of acid solutions.The technology guarantees practically complete ecological safety of the polishing process.
Enhances operational properties of:
– corrosion resistance (a 2.1 times reduction of the corrosion current density on the steel ЭИ 961);
– strength properties, a 10-12% enhancement of the endurance limit;
– resistance to particulate erosion.
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
Patents of the RB for the invention #14504; #14333; #14020; #13937; #12957; #11809; #11808; #11206; #9204;#8425; #8424; #7570; #7291
Sector group
Aeronautics, Space and Dual-Use Technologies
BioChemTech
Intelligent Energy
Maritime Industry and Services
Materials
Mobility
BioChemTech
Intelligent Energy
Maritime Industry and Services
Materials
Mobility
Organization information
Type
R&D institution
Year established
1965
NACE keywords
Q.86.90 - Other human health activities
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.
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
Joint Institute of Power and Nuclear Research - Sosny (Institute of Nuclear Power Engineering of the Academy of Sciences of the BSSR) was one of the largest scientific centers of the USSR on nuclear power. The Institute is defined as an organization performing scientific support for the construction and operation of nuclear power plants.
From the first days of the Chernobyl accident, the Institute was involved in solving such important problems as determining the levels of radioactive contamination of the territory of the Republic with radioactive isotopes and the levels of irradiation of the population of the affected regions, monitoring the radioactive contamination of food products produced in the Republic, which became an important factor in choosing the strategy and tactics of measures to protect the population from radiation hazard.
The main areas of activity of the Institute:
- nuclear energy, scientific support for the development of nuclear energy in the Republic of Belarus;
- nuclear and radiation technologies in the interests of various sectors of the economy of the Republic of Belarus;
- handling radioactive waste and spent nuclear fuel;
- fundamental and applied research in the field of nuclear physics, particle physics, high energy physics.
Promising areas of the Institute's activities:
- development of methods for modeling neutron-physical and thermal-hydraulic processes and their application in substantiating the safety of the Belarusian NPP;
- computational, theoretical and experimental substantiation of thermal-hydraulic and neutron-physical characteristics of power and research nuclear reactors;
- development of methods for probabilistic safety analysis of nuclear facilities;
- fundamental and applied research in the physics and kinetics of subcritical systems based on the synthesis of fission and fission reactions (Accelerator Driven Systems) and long-lived waste incineration technologies (Accelerator Driven Transmution Technologies);
- development of technologies based on particle and radiation sources for the production of micro-, nano- and optoelectronics, precision surface treatment of materials, radiation testing and modification of polymer products, production of medicines and drugs, sterilization of medical products, etc. (NG-12-1, UELV-10-10, UGU-420, "Giatsint" stand), development of high technologies using ionizing radiation;
- development of supercomputer and Grid technologies and their application in nuclear physics and power engineering;
- development of precision non-destructive testing methods and expert testing of radioactive materials;
- development of a methodology for monitoring energy security and measures to reduce the likelihood of threats to energy security and ensure the operation of the republic's fuel and energy complex in emergency situations;
- research and optimization of the efficient use of renewable energy sources (biomass, solar and wind energy);
- development of methods for assessing environmental and economic consequences and decision-making in emergency situations during radiation and nuclear accidents;
- development of a technology for the production of a new generation of radiopharmaceuticals for the treatment of oncological diseases;
- development of technologies and measures to eliminate temporary burial sites for radioactive waste in places of former deployment of USSR troops and to prevent negative consequences of the impact of radioactive waste storage facilities outside Belarus.
The Institute carries out a great deal of work on the implementation by the Republic of Belarus of the Treaty on the Non-Proliferation of Nuclear Weapons, the Convention on the Physical Protection of Nuclear Materials and the IAEA Safeguards Agreement on the Non-Diversion of Nuclear Materials from Peaceful to Military Activities.
From the first days of the Chernobyl accident, the Institute was involved in solving such important problems as determining the levels of radioactive contamination of the territory of the Republic with radioactive isotopes and the levels of irradiation of the population of the affected regions, monitoring the radioactive contamination of food products produced in the Republic, which became an important factor in choosing the strategy and tactics of measures to protect the population from radiation hazard.
The main areas of activity of the Institute:
- nuclear energy, scientific support for the development of nuclear energy in the Republic of Belarus;
- nuclear and radiation technologies in the interests of various sectors of the economy of the Republic of Belarus;
- handling radioactive waste and spent nuclear fuel;
- fundamental and applied research in the field of nuclear physics, particle physics, high energy physics.
Promising areas of the Institute's activities:
- development of methods for modeling neutron-physical and thermal-hydraulic processes and their application in substantiating the safety of the Belarusian NPP;
- computational, theoretical and experimental substantiation of thermal-hydraulic and neutron-physical characteristics of power and research nuclear reactors;
- development of methods for probabilistic safety analysis of nuclear facilities;
- fundamental and applied research in the physics and kinetics of subcritical systems based on the synthesis of fission and fission reactions (Accelerator Driven Systems) and long-lived waste incineration technologies (Accelerator Driven Transmution Technologies);
- development of technologies based on particle and radiation sources for the production of micro-, nano- and optoelectronics, precision surface treatment of materials, radiation testing and modification of polymer products, production of medicines and drugs, sterilization of medical products, etc. (NG-12-1, UELV-10-10, UGU-420, "Giatsint" stand), development of high technologies using ionizing radiation;
- development of supercomputer and Grid technologies and their application in nuclear physics and power engineering;
- development of precision non-destructive testing methods and expert testing of radioactive materials;
- development of a methodology for monitoring energy security and measures to reduce the likelihood of threats to energy security and ensure the operation of the republic's fuel and energy complex in emergency situations;
- research and optimization of the efficient use of renewable energy sources (biomass, solar and wind energy);
- development of methods for assessing environmental and economic consequences and decision-making in emergency situations during radiation and nuclear accidents;
- development of a technology for the production of a new generation of radiopharmaceuticals for the treatment of oncological diseases;
- development of technologies and measures to eliminate temporary burial sites for radioactive waste in places of former deployment of USSR troops and to prevent negative consequences of the impact of radioactive waste storage facilities outside Belarus.
The Institute carries out a great deal of work on the implementation by the Republic of Belarus of the Treaty on the Non-Proliferation of Nuclear Weapons, the Convention on the Physical Protection of Nuclear Materials and the IAEA Safeguards Agreement on the Non-Diversion of Nuclear Materials from Peaceful to Military Activities.
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
Consumers interested in purchasing electrolytic-plasma processing technology for metals and alloys based on a commercial agreement with technical assistance, production and supply of equipment under a manufacturing agreement.
Partners interested in developing electrolytic-plasma processing technology for metals and alloys under a technical cooperation agreement.
Partners interested in developing electrolytic-plasma processing technology for metals and alloys under a technical cooperation agreement.
Type and size of partner sought
> 500
251-500
SME 51-250
SME 11-50
SME <= 10
R&D Institution
University
Sole proprietor
251-500
SME 51-250
SME 11-50
SME <= 10
R&D Institution
University
Sole proprietor
Attachments
Просмотров: 233
Статистика ведется с 10.10.2024 17:52:51
Статистика ведется с 10.10.2024 17:52:51