Slab made of composite material based on polymer waste
COUNTRY OF ORIGIN
BelarusIDENTIFIER
BO5626PUBLISHED
2022-09-23LAST UPDATE
2024-06-23DEADLINE
Linked profile in other language
Responsible
Bozhanova Elena
+375296814311
elena.bozhanova@mail.ru
+375296814311
elena.bozhanova@mail.ru
Summary
V.A. Belyi Metal Polymer Research Institute offers consumers slab made of composite material based on polymer waste under a manufacturing agreement and is looking for partners interested in a distribution services agreement.
Description
The slab is made of a composite material based on modified solid polymer waste of any composition, including those containing textile fiber cord, fiberglass waste, tires and other non-metallic inclusions.
The slab can be used for strengthening the soil or topsoil (version with through holes), as a floor covering in industrial and agricultural premises (version with a solid surface or with small drainage holes), as well as other purposes.
The slab can be used for strengthening the soil or topsoil (version with through holes), as a floor covering in industrial and agricultural premises (version with a solid surface or with small drainage holes), as well as other purposes.
Advantages and Innovations
Advantages:
— high mechanical strength and wear resistance;
— resistance to influence of climatic factors;
— simple installation / dismantling that does not require special tools and skills;
— the possibility of using practically any composition of polymeric waste as a raw material, including those that are not processed according to traditional technologies (rubber, textile cord, cross-linked polymers, etc.);
— low cost.
— high mechanical strength and wear resistance;
— resistance to influence of climatic factors;
— simple installation / dismantling that does not require special tools and skills;
— the possibility of using practically any composition of polymeric waste as a raw material, including those that are not processed according to traditional technologies (rubber, textile cord, cross-linked polymers, etc.);
— low cost.
Stage of development
Already on the market
Funding source
State budged
Internal
Internal
IPR status
Exclusive rights
Secret know-how
Secret know-how
Sector group
Agrofood
Environment
Materials
Sustainable Construction
Environment
Materials
Sustainable Construction
Client information
Type
R&D institution
Year established
1969
NACE keywords
C.22.29 - Manufacture of other plastic products
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
At present, V.A. Belyi Metal Polymer Research Institute is an academic scientific and technical complex, working in the direction of fundamental and applied research in two main scientific areas:
- physical and chemical bases for the development of composite materials based on organic and inorganic polymers;
- physics, chemistry and surface mechanics, analysis of contact interactions, friction, wear and lubrication in technical and biological systems.
Within these areas, research is being developed in such areas as:
- interfacial phenomena in polymer-polymer and metal-polymer systems;
- weather resistance and predicting the durability of polymer composites;
- adaptive materials and structures;
- physics and chemistry of lubricating action;
- methods of sealing and filtration;
- methods for calculating products made of composite materials;
- recycling of multicomponent polymer systems;
- physics and technology of thin films;
- methods of surface analysis, description and classification of its topography at the micro- and nanolevel;
- solution -contact and thermal problems of tribotechnics;
- space tribotechnics;
- friction and lubrication of natural and artificial joints;
- diagnostics and monitoring of friction units of machines.
Areas of possible cooperation:
- Physics, chemistry, mechanics of polymers and composites based on them;
- Studies of the processes of friction, wear and lubrication of solids, examination and forecasting of the resource of friction units;
- Technologies for applying polymer, metal-polymer and ceramic coatings for various purposes (decorative, anti-corrosion, anti-friction, electrical insulating, etc.) and equipment for their implementation;
- Surface probe microscopy, research of surface micromechanical properties, modeling of contact processes at micro- and nanolevels, production of tribometric equipment and tools for surface scanning probe microscopy;
- Design and manufacture of technological equipment and tooling for molding products from polymeric materials, software tools for technological processes;
- Active film materials for food packaging;
- Anti-friction and non-asbestos friction materials;
- Sealing materials and designs of movable and fixed seals for machines, equipment, oil and gas pipelines;
- Wood-polymer materials with protective and decorative coatings;
- Sound and heat insulation materials;
- Blends based on structural thermoplastics and thermoplastic elastomers;
- Temperature-resistant lubricants and cutting fluids;
- Packaging film materials for the protection of metal products, machine tools, equipment from corrosion;
- Filtering polymeric materials for purification of gases and liquids;
- Biomechanics and polymer implants for surgery;
- Biotechnology based on the use of polymeric materials;
- Mesomechanics of polymeric materials;
- Computer simulation of materials processing technologies;
- Research of electrophysical properties of polymers and composites.
Every year, work is carried out under 15-20 contracts with the CIS countries and far abroad countries (Russia, Ukraine, USA, France, the Republic of Korea, Switzerland, Poland, etc.) for the development and supply of scientific equipment, new materials and technologies.
- physical and chemical bases for the development of composite materials based on organic and inorganic polymers;
- physics, chemistry and surface mechanics, analysis of contact interactions, friction, wear and lubrication in technical and biological systems.
Within these areas, research is being developed in such areas as:
- interfacial phenomena in polymer-polymer and metal-polymer systems;
- weather resistance and predicting the durability of polymer composites;
- adaptive materials and structures;
- physics and chemistry of lubricating action;
- methods of sealing and filtration;
- methods for calculating products made of composite materials;
- recycling of multicomponent polymer systems;
- physics and technology of thin films;
- methods of surface analysis, description and classification of its topography at the micro- and nanolevel;
- solution -contact and thermal problems of tribotechnics;
- space tribotechnics;
- friction and lubrication of natural and artificial joints;
- diagnostics and monitoring of friction units of machines.
Areas of possible cooperation:
- Physics, chemistry, mechanics of polymers and composites based on them;
- Studies of the processes of friction, wear and lubrication of solids, examination and forecasting of the resource of friction units;
- Technologies for applying polymer, metal-polymer and ceramic coatings for various purposes (decorative, anti-corrosion, anti-friction, electrical insulating, etc.) and equipment for their implementation;
- Surface probe microscopy, research of surface micromechanical properties, modeling of contact processes at micro- and nanolevels, production of tribometric equipment and tools for surface scanning probe microscopy;
- Design and manufacture of technological equipment and tooling for molding products from polymeric materials, software tools for technological processes;
- Active film materials for food packaging;
- Anti-friction and non-asbestos friction materials;
- Sealing materials and designs of movable and fixed seals for machines, equipment, oil and gas pipelines;
- Wood-polymer materials with protective and decorative coatings;
- Sound and heat insulation materials;
- Blends based on structural thermoplastics and thermoplastic elastomers;
- Temperature-resistant lubricants and cutting fluids;
- Packaging film materials for the protection of metal products, machine tools, equipment from corrosion;
- Filtering polymeric materials for purification of gases and liquids;
- Biomechanics and polymer implants for surgery;
- Biotechnology based on the use of polymeric materials;
- Mesomechanics of polymeric materials;
- Computer simulation of materials processing technologies;
- Research of electrophysical properties of polymers and composites.
Every year, work is carried out under 15-20 contracts with the CIS countries and far abroad countries (Russia, Ukraine, USA, France, the Republic of Korea, Switzerland, Poland, etc.) for the development and supply of scientific equipment, new materials and technologies.
Languages spoken
English
Russian
Russian
Information about partnership
Type of partnership considered
Distribution services agreement
Manufacturing agreement
Manufacturing agreement
Type and role of partner sought
Consumers interested in purchasing composite material boards based on polymer waste under a manufacturing agreement.
Partners interested in acquiring composite material boards based on polymer waste under a distribution services agreement.
Partners interested in acquiring composite material boards based on polymer waste under a distribution services agreement.
Type and size of partner sought
251-500
SME 51-250
SME 11-50
SME <= 10
R&D Institution
University
Sole proprietor
SME 51-250
SME 11-50
SME <= 10
R&D Institution
University
Sole proprietor
Attachments
Views: 1382
Statistics since 23.09.2022 16:51:42
Statistics since 23.09.2022 16:51:42