Dental implants with porous surface
COUNTRY OF ORIGIN
BelarusIDENTIFIER
BO11250PUBLISHED
2024-08-08LAST UPDATE
2024-08-10DEADLINE
Linked profile in other language
Responsible
Anton Sedelnik
+375 17 290 9873
otdel35@pminstitute.by
+375 17 290 9873
otdel35@pminstitute.by
Summary
O.V. Roman Powder Metallurgy Institute offers consumers a porous surface dental implants under a manufacturing agreement and is looking for partners interested in a distribution services agreement.
Description
Dental implants with a porous surface are used in dentistry as a support for various orthopedic structures in case of partial or complete defects of the dentition and allow for complete restoration of chewing and articulation functions while achieving an excellent aesthetic result.
Dental implants with a porous surface are intended for two-stage implantation and have a collapsible design, including an intraosseous part and a set of accessories. Dental implants with a porous surface are made of titanium grade VT1-00, which meets the international standards ISO 5832/11 and ASTM F67-89 in terms of biocompatibility and chemical composition. The porous surface of the intraosseous part of dental implants is formed by spherical particles of titanium powder of the same grade, 0.2-0.4 mm in size, connected to each other using powder metallurgy methods.
The porous surface of the intraosseous part of dental implants has open interconnected pores of 80 to 160 microns in size and promotes uniform volumetric growth of bone tissue into its structure, ensuring lifelong fixation in the jaw.
Dental implants with an intraosseous part in the form of a tooth root are intended for immediate implantation into the socket of an extracted tooth, dental implants with a cylindrical intraosseous part are for delayed implantation.
Sizes of dental implants with an intraosseous part in the form of a tooth root:
More information on the Institute's website.
Dental implants with a porous surface are intended for two-stage implantation and have a collapsible design, including an intraosseous part and a set of accessories. Dental implants with a porous surface are made of titanium grade VT1-00, which meets the international standards ISO 5832/11 and ASTM F67-89 in terms of biocompatibility and chemical composition. The porous surface of the intraosseous part of dental implants is formed by spherical particles of titanium powder of the same grade, 0.2-0.4 mm in size, connected to each other using powder metallurgy methods.
The porous surface of the intraosseous part of dental implants has open interconnected pores of 80 to 160 microns in size and promotes uniform volumetric growth of bone tissue into its structure, ensuring lifelong fixation in the jaw.
Dental implants with an intraosseous part in the form of a tooth root are intended for immediate implantation into the socket of an extracted tooth, dental implants with a cylindrical intraosseous part are for delayed implantation.
Sizes of dental implants with an intraosseous part in the form of a tooth root:
thickness
| 3.5 and 4 mm
|
width | 5 and 6 mm |
length
| 10, 12 and 14 mm.
|
Dimensions of dental implants with a cylindrical intraosseous part:
diameter
| 3.5, 4 and 5.5 mm
|
length | 8, 10, 12 and 14 mm. |
More information on the Institute's website.
Advantages and Innovations
Complete restoration of chewing and articulation function while achieving excellent aesthetic results.
Stage of development
Already on the market
Comments regarding stage of development
Dental implants with a porous surface are registered and approved for use in medical practice in the Republic of Belarus (registration certificate of the Ministry of Health of the Republic of Belarus No. IM-7.3990/0810, license of the Ministry of Health of the Republic of Belarus No. 02040/0311824).
Funding source
State budged
Internal
Internal
IPR status
Exclusive rights
Secret know-how
Secret know-how
Sector group
Healthcare
Materials
Materials
Client information
Type
R&D institution
Year established
1972
NACE keywords
C.24.33 - Cold forming or folding
C.25.50 - Forging, pressing, stamping and roll-forming of metal; powder metallurgy
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.25.50 - Forging, pressing, stamping and roll-forming of metal; powder metallurgy
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 Institute's areas of activity.
Fundamental research:
- development of scientific principles for controlling the properties of metal-based composite powder materials with inclusions of a hard (soft) phase using computer modeling of the features of their macrostructure and behavior under external force and temperature effects;
- development of scientific principles for the creation and methods for controlling the structure and properties of nanostructured composite materials for various functional purposes;
- development of scientific foundations for creating permeable materials with an organized structure obtained by powder metallurgy methods for combustion, filtration and catalysis processes;
- study of heat and mass transfer processes in porous powder materials with an irregular pore structure;
- development of scientific foundations for obtaining composite powders of a given chemical and phase composition by mechanical alloying, granulation, self-propagating high-temperature synthesis (SHS) and application of functional protective coatings from powder materials;
- study of the strengthening mechanism of thermally sprayed composite coatings when treated with highly concentrated energy flows;
- mathematical modeling of the process of deformation and stress formation in a welded structure;
- development of theoretical and technological foundations for obtaining economically alloyed welding materials and components for their production;
- study of metallurgical, thermal deformation processes during high-speed plastic deformation of materials for obtaining welded joints and materials (friction stir welding);
- conducting fundamental scientific research on the impact of pulsed processes on various materials, the interaction of compact and discrete powder bodies at various loading rates, including due to the energy of explosives;
- development of a mathematical and computer model of the interaction of a melt particle with a solid surface under conditions of changing environmental parameters and properties of the formed coatings;
Applied research:
- development and implementation of new technological processes, materials and equipment in the field of creating functional ceramics, porous materials for various purposes, layered and cast composite materials using high pressures and various loading rates;
- development of low-alloy powder steels with a nanosized dispersed structure of the ferrite-martensite type, obtained using the mechanisms of interparticle and intergranular sliding in the processes of pressing and heat treatment, and the production of products from them;
- production of nanosized additives based on aluminum, copper, silicon, manganese, chromium, phosphorus, carbon and other elements by mechanical activation, SHS, hydrothermal synthesis;
- production of capillary-porous powder materials with an irregular pore structure based on copper, nickel, titanium, aluminum to intensify heat and mass transfer processes in the cooling systems of new electronic devices, components of personal computers, laptops;
- production of highly efficient porous and highly porous cellular materials with functional coatings due to the creation of a composite microstructure of the metal-ceramic, polymer-ceramic, ceramic-ceramic type (filter elements, membranes) for energy-saving processes of cleaning liquids and gases;
- production of hard alloys with the introduction of nanocrystalline carbides and oxides of transition metals for the manufacture of forming tools;
- development of technologies for the production of carbon-carbon materials and products made from them;
- study of processes of high-speed plastic deformation of materials during friction stir welding;
- development of new composite powder materials with high performance properties: high-density, capillary-porous, wear-resistant, radio-absorbing, heat-shielding, etc.
Fundamental research:
- development of scientific principles for controlling the properties of metal-based composite powder materials with inclusions of a hard (soft) phase using computer modeling of the features of their macrostructure and behavior under external force and temperature effects;
- development of scientific principles for the creation and methods for controlling the structure and properties of nanostructured composite materials for various functional purposes;
- development of scientific foundations for creating permeable materials with an organized structure obtained by powder metallurgy methods for combustion, filtration and catalysis processes;
- study of heat and mass transfer processes in porous powder materials with an irregular pore structure;
- development of scientific foundations for obtaining composite powders of a given chemical and phase composition by mechanical alloying, granulation, self-propagating high-temperature synthesis (SHS) and application of functional protective coatings from powder materials;
- study of the strengthening mechanism of thermally sprayed composite coatings when treated with highly concentrated energy flows;
- mathematical modeling of the process of deformation and stress formation in a welded structure;
- development of theoretical and technological foundations for obtaining economically alloyed welding materials and components for their production;
- study of metallurgical, thermal deformation processes during high-speed plastic deformation of materials for obtaining welded joints and materials (friction stir welding);
- conducting fundamental scientific research on the impact of pulsed processes on various materials, the interaction of compact and discrete powder bodies at various loading rates, including due to the energy of explosives;
- development of a mathematical and computer model of the interaction of a melt particle with a solid surface under conditions of changing environmental parameters and properties of the formed coatings;
Applied research:
- development and implementation of new technological processes, materials and equipment in the field of creating functional ceramics, porous materials for various purposes, layered and cast composite materials using high pressures and various loading rates;
- development of low-alloy powder steels with a nanosized dispersed structure of the ferrite-martensite type, obtained using the mechanisms of interparticle and intergranular sliding in the processes of pressing and heat treatment, and the production of products from them;
- production of nanosized additives based on aluminum, copper, silicon, manganese, chromium, phosphorus, carbon and other elements by mechanical activation, SHS, hydrothermal synthesis;
- production of capillary-porous powder materials with an irregular pore structure based on copper, nickel, titanium, aluminum to intensify heat and mass transfer processes in the cooling systems of new electronic devices, components of personal computers, laptops;
- production of highly efficient porous and highly porous cellular materials with functional coatings due to the creation of a composite microstructure of the metal-ceramic, polymer-ceramic, ceramic-ceramic type (filter elements, membranes) for energy-saving processes of cleaning liquids and gases;
- production of hard alloys with the introduction of nanocrystalline carbides and oxides of transition metals for the manufacture of forming tools;
- development of technologies for the production of carbon-carbon materials and products made from them;
- study of processes of high-speed plastic deformation of materials during friction stir welding;
- development of new composite powder materials with high performance properties: high-density, capillary-porous, wear-resistant, radio-absorbing, heat-shielding, etc.
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 porous surface dental implants under a manufacturing agreement.
Partners interested in purchasing porous surface dental implants under a distribution services agreement.
Partners interested in purchasing porous surface dental implants under a distribution services 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
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Statistics since 08.08.2024 21:46:06
Statistics since 08.08.2024 21:46:06