Services for crack resistance control of ceramic materials and coatings using atomic force microscopy and nanoindentation
COUNTRY OF ORIGIN
IDENTIFIER
BO11186PUBLISHED
2024-09-04LAST UPDATE
2024-09-09DEADLINE
Linked profile in other language
Responsible
Svetlana Markova
+375 29 752 8328
sveta_oms@itmo.by
+375 29 752 8328
sveta_oms@itmo.by
Summary
A.V.Luikov Heat and Mass Transfer Institute of the National Academy of Sciences of Belarus offers consumers services for crack resistance control of ceramic materials and coatings using atomic force microscopy and nanoindentation under a outsourcing agreement or subcontract.
Description
A.V.Luikov Heat and Mass Transfer Institute of the National Academy of Sciences of Belarus has developed a methodology for determining crack resistance (fracture toughness) of ceramic materials and coatings by atomic force microscopy and nanoindentation methods, which, due to its high resolution, allows reducing error in determining critical stress intensity coefficient KIC by 2...6 times compared to optical and scanning electron microscopy.
The method of atomic force microscopy for precise detection of parameters of deformation patterns and determination of the type of cracks around the imprint allows studying the surface structure with vertical resolution (not less than 1 nm/pixel), revealing subtle features of deformation, dislocations on the surface and fracture of the material, which are not determined either by optical microscopy or scanning electron microscopy.
The nanoindentation method using mathematical models for calculating KIC allows measurements of crack resistance parameters (critical stress intensity coefficient and microhardness) with required error at low (from 0.01 to 0.5 N) and high (from 1.0 to 5.5 N) loads.
Scheme of measurement and AFM visualization.
Application areas: determination of crack resistance of non-metallic brittle materials and coatings used in mechanical engineering, instrumentation, aviation and space industries, microelectronics, microsensory, multiphase ceramic materials.
The Institute offers partners services for crack resistance control of ceramic materials and coatings using atomic force microscopy and nanoindentation under a outsourcing agreement or subcontract.
More details in the dissertation (in Russian) and Catalog «Brands of the National Academy of Sciences of Belarus, 2021-2022: list of the most important developments of the NAS of Belarus» (2023), pp.70-71. (in Russian)
The method of atomic force microscopy for precise detection of parameters of deformation patterns and determination of the type of cracks around the imprint allows studying the surface structure with vertical resolution (not less than 1 nm/pixel), revealing subtle features of deformation, dislocations on the surface and fracture of the material, which are not determined either by optical microscopy or scanning electron microscopy.
The nanoindentation method using mathematical models for calculating KIC allows measurements of crack resistance parameters (critical stress intensity coefficient and microhardness) with required error at low (from 0.01 to 0.5 N) and high (from 1.0 to 5.5 N) loads.
Scheme of measurement and AFM visualization.
Application areas: determination of crack resistance of non-metallic brittle materials and coatings used in mechanical engineering, instrumentation, aviation and space industries, microelectronics, microsensory, multiphase ceramic materials.
The Institute offers partners services for crack resistance control of ceramic materials and coatings using atomic force microscopy and nanoindentation under a outsourcing agreement or subcontract.
More details in the dissertation (in Russian) and Catalog «Brands of the National Academy of Sciences of Belarus, 2021-2022: list of the most important developments of the NAS of Belarus» (2023), pp.70-71. (in Russian)
Advantages and Innovations
The developed methods of atomic force microscopy and nanoindentation allow to reduce error of determination of critical stress intensity factor KIC by 2...6 times in comparison with optical and scanning electron microscopy.
Stage of development
Already on the market
Funding source
State budged
Internal
Internal
IPR status
Exclusive rights
Secret know-how
Trade marks
Secret know-how
Trade marks
Comments regarding IPS status
Registration certificate of trademark № 34694 dated 15.01.2009
Lapitskaya, V. A. The use of AFM in assessing the crack resistance of silicon wafers of various orientations / V. A. Lapitskaya, T. A. Kuznetsova, A. V. Khabarava, S. A. Chizhik, S. M. Aizikovich, E. V. Sadyrin, B. I. Mitrin, Weifu Sun // Engineering Fracture Mechanics. – 2022, V. 259. – p. 107926.
Lapitskaya, V. A. Methods for accuracy increasing of determining the fracture toughness of solid brittle materials / V.A. Lapitskaya, T.A. Kuznetsova, S.A. Chizhik, B. Warcholinski // Instruments and methods of measurement. – 2022. – Т. 13, № 1. – p. 40–49.
Lapitskaya, V. A. The use of AFM in assessing the crack resistance of silicon wafers of various orientations / V. A. Lapitskaya, T. A. Kuznetsova, A. V. Khabarava, S. A. Chizhik, S. M. Aizikovich, E. V. Sadyrin, B. I. Mitrin, Weifu Sun // Engineering Fracture Mechanics. – 2022, V. 259. – p. 107926.
Lapitskaya, V. A. Methods for accuracy increasing of determining the fracture toughness of solid brittle materials / V.A. Lapitskaya, T.A. Kuznetsova, S.A. Chizhik, B. Warcholinski // Instruments and methods of measurement. – 2022. – Т. 13, № 1. – p. 40–49.
Sector group
Aeronautics, Space and Dual-Use Technologies
Materials
Mobility
Nano and micro technologies
Materials
Mobility
Nano and micro technologies
Organization information
Type
R&D institution
Year established
1952
NACE keywords
C.27.90 - Manufacture of other electrical equipment
C.32.99 - Other manufacturing 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.32.99 - Other manufacturing 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
A.V.Luikov Heat and Mass Transfer Institute of the National Academy of Sciences of Belarus is the largest scientific institution in the republic dealing with the solution of fundamental and applied problems of heat and mass transfer, fluid dynamics, power engineering, heat engineering, chemical physics, physics of combustion and explosion, nanotechnology, as well as the creation of energy-efficient and environmentally friendly technologies and equipment, apparatus and devices for power engineering and mechanical engineering, agro-industrial complex and construction industry, medicine, chemical, electronic, radio engineering, food industry, space industry.
The Institute carries out scientific, scientific-organizational, and scientific-production interaction with academic and industrial research institutes, universities, design bureaus, associations, and enterprises of Belarus, Russia, Ukraine, Kazakhstan, Moldova, Uzbekistan, Lithuania, Latvia, China, USA, India, Germany, Poland , Czech Republic, Israel, Brazil, Italy, France, and other countries.
The Institute carries out scientific, scientific-organizational, and scientific-production interaction with academic and industrial research institutes, universities, design bureaus, associations, and enterprises of Belarus, Russia, Ukraine, Kazakhstan, Moldova, Uzbekistan, Lithuania, Latvia, China, USA, India, Germany, Poland , Czech Republic, Israel, Brazil, Italy, France, and other countries.
Languages spoken
English
Russian
Russian
Information about partnership
Type of partnership considered
Outsourcing agreement
Subcontracting
Subcontracting
Type and role of partner sought
Consumers interested in purchasing services for crack resistance control of ceramic materials and coatings using atomic force microscopy and nanoindentation under an outsourcing agreement or subcontract.
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
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Статистика ведется с 04.09.2024 17:18:11
Статистика ведется с 04.09.2024 17:18:11