Calculations, computer modeling and resource estimation of mechanical systems
COUNTRY OF ORIGIN
IDENTIFIER
BO3691PUBLISHED
2021-04-16LAST UPDATE
2021-04-18DEADLINE
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 Joint Institute of Mechanical Engineering offers services for the calculation, computer modeling, and resource assessment of mechanical systems. The institute is looking for partners in need of calculations, computer modeling, and resource estimation of mechanical systems within the framework of a manufacturing agreement, outsourcing agreement, or subcontract.
Description
Calculation and research of kinematics and dynamics of multicomponent mechanical systems:
• multicomponent, multidisciplinary dynamic models, including elastic properties of complex structures, as well as integrated models of control systems;
• kinematic, dynamic and power analysis of mechanical systems of any complexity (including models of tires, gearing, belt, chain drives, bearings, cables, and ropes, etc.) under operational and emergency loading conditions;
• study of indicators of the stress-strain state of parts and components of systems in the process of functioning;
• analysis of natural and forced vibrations, calculations of vibration loading of multicomponent mechanical systems in the time and frequency domain;
• multi-criteria optimization of the parameters of mechanical systems and components; modeling
and research on mechatronic systems.
Calculation of mechanical systems and components based on the finite element method:
• strength calculations of structures taking into account all types of nonlinearities, including structures made of composite materials;
• modeling of fast dynamic processes (crash tests) taking into account destruction;
• structural stability analysis, harmonic and modal analysis;
• modeling of technological processes for the manufacture of parts and structures of machines.
Estimated resource estimate:
• details and structural elements based on the results of calculating the indicators of the stress-strain state using FEM;
• welded, threaded, adhesive, and other types of connections.
Virtual tests:
• development, verification, and validation of computational models and methods of virtual testing of machines
and components performed on the basis of numerical methods of calculation;
• conducting virtual tests to assess the conformity of indicators:
- stability, maneuverability, controllability, and smoothness of the course;
- active and passive safety of vehicles and their structures to the requirements of regulatory documents;
• conducting research to determine the parameters of material models necessary for a reliable description of the properties of parts and structures of machines during virtual tests;
• development, research, and improvement of test schemes, equipment used
and accessories.
Modeling and optimization of control systems:
• development of models and techniques for modeling systems and control objects using numerical methods of multi- and interdisciplinary calculations;
• multilevel modeling and analysis of control algorithms of the machine and its individual systems;
Full-scale tests:
• development of stands and bench equipment for life tests of machine parts and structures;
• development of programs-methods of full-scale research, resource accelerated (road and bench) tests of mechanical engineering products;
• support of tests;
• processing and analysis of test results.
• multicomponent, multidisciplinary dynamic models, including elastic properties of complex structures, as well as integrated models of control systems;
• kinematic, dynamic and power analysis of mechanical systems of any complexity (including models of tires, gearing, belt, chain drives, bearings, cables, and ropes, etc.) under operational and emergency loading conditions;
• study of indicators of the stress-strain state of parts and components of systems in the process of functioning;
• analysis of natural and forced vibrations, calculations of vibration loading of multicomponent mechanical systems in the time and frequency domain;
• multi-criteria optimization of the parameters of mechanical systems and components; modeling
and research on mechatronic systems.
Calculation of mechanical systems and components based on the finite element method:
• strength calculations of structures taking into account all types of nonlinearities, including structures made of composite materials;
• modeling of fast dynamic processes (crash tests) taking into account destruction;
• structural stability analysis, harmonic and modal analysis;
• modeling of technological processes for the manufacture of parts and structures of machines.
Estimated resource estimate:
• details and structural elements based on the results of calculating the indicators of the stress-strain state using FEM;
• welded, threaded, adhesive, and other types of connections.
Virtual tests:
• development, verification, and validation of computational models and methods of virtual testing of machines
and components performed on the basis of numerical methods of calculation;
• conducting virtual tests to assess the conformity of indicators:
- stability, maneuverability, controllability, and smoothness of the course;
- active and passive safety of vehicles and their structures to the requirements of regulatory documents;
• conducting research to determine the parameters of material models necessary for a reliable description of the properties of parts and structures of machines during virtual tests;
• development, research, and improvement of test schemes, equipment used
and accessories.
Modeling and optimization of control systems:
• development of models and techniques for modeling systems and control objects using numerical methods of multi- and interdisciplinary calculations;
• multilevel modeling and analysis of control algorithms of the machine and its individual systems;
Full-scale tests:
• development of stands and bench equipment for life tests of machine parts and structures;
• development of programs-methods of full-scale research, resource accelerated (road and bench) tests of mechanical engineering products;
• support of tests;
• processing and analysis of test results.
Advantages and Innovations
Comprehensive assessment of the resource of mechanical systems.
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
Aeronautics, Space and Dual-Use Technologies
Agrofood
ICT Industry & Services
Maritime Industry and Services
Mobility
Agrofood
ICT Industry & Services
Maritime Industry and Services
Mobility
Organization information
Type
R&D institution
NACE keywords
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.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 develops scientific and scientific and 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 treaties, agreements, and protocols have been signed in cooperation with foreign and international scientific organizations, higher educational institutions, and governing bodies in the field of scientific and technical activities.
Currently, the agreements reached with a number of foreign partners in the Russian Federation, the Republic of Kazakhstan, the People's Republic of China, the Federal Republic of Germany, the Austrian Republic, the Republic of Lithuania, the Republic of Poland, the Republic of Korea, and Ukraine are being implemented.
Currently, the agreements reached with a number of foreign partners in the Russian Federation, the Republic of Kazakhstan, the People's Republic of China, the Federal Republic of Germany, the Austrian Republic, the Republic of Lithuania, the Republic of Poland, the Republic of Korea, and Ukraine are being implemented.
Languages spoken
English
Russian
Russian
Information about partnership
Type of partnership considered
Manufacturing agreement
Outsourcing agreement
Subcontracting
Outsourcing agreement
Subcontracting
Type and role of partner sought
Partners interested in services for calculation, computer modeling, and resource estimation of mechanical systems based on the conclusion of a manufacturing agreement, outsourcing agreement, or subcontract.
Type and size of partner sought
> 500 MNE
> 500
251-500
SME 51-250
SME 11-50
SME <= 10
R&D Institution
University
> 500
251-500
SME 51-250
SME 11-50
SME <= 10
R&D Institution
University
Attachments
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Статистика ведется с 16.04.2021 22:35:11
Статистика ведется с 16.04.2021 22:35:11