Address:
South Ural State University
Office 823, Main University Building
76, Prospect Lenina
E-mail: taranenkopa@susu.ru
Head
Pavel Taranenko
Ph.D.
The Laboratory of Experimental Mechanics offers SUSU scientists premier facilities and software for conducting groundbreaking research and bold experiments for a broad scope of industrial needs.
What we do:
Improve the quality of materials and reducing the design time by developing experimentally verified multifunctional computer modelling
Our services:
Analysis of mechanical properties of materials (including composite materials) under static and shock load
Development of complex models of dynamic systems verified by test results
Calculation of the dynamics and strength of structures by the finite element method
Analysis of fatigue properties of materials
Vibration testing under sinusoidal, random, and shock excitation
Experimental modal analysis
Non-contact vibration measurement
Non-contact stress and strain measurement
Multichannel thermal strain gauge measurement
Analysis of in-vehicle and engine noise sources
Vehicle road testing
Our equipment
Instron 5882
Freestanding, electromechanical testing machine that can perform a variety of mechanical tests (tensile, compression, and flexure) with the temperature range from -70 С to 1000С
Instron Ceast 9350
Drop Tower Impact System: impact resistance testing of metals, polymers, plastics, rubber, engineered plastics, composite materials, product components, etc. with the temperature range from -70 С to 150 С
LDS (Bruel and Kjaer) V875 HBT 900 Combo
Vibration testing under sinusoidal, random, and shock excitation
Bruel and Kjaer VC LAN 7542
Vibration controller: random, swept sine, resonance dwell, classical shock, random- and sine-on-random, shock SRS, and field data replication
96-channel Siemens (LMS) measurement system
Measurement of vibration acceleration, noise, and deformation of machines, devices, and objects (laboratory and field experiments)
Portable modal shaker
Experimental modal analysis
Siemens (LMS) HD Acoustic Camera
Fast, exact noise source localization
Facilities for the measurement of mechanical properties of materials at high loading rates
Our research
Experimental evaluation of vibration loading
Experimental modal analysis
Modelling of Coriolis mass flow meter
Measuring two-phase flow in Coriolis mass flow meter
Strain measurement
Development of vibration isolation systems
Our partners
Our publications:
O. Ibryaeva, P. Taranenko, M. Tombs, F. Zhou and M. Henry, "Matrix pencil method for coriolis metering with liquid/gas flow II: Experimental results," 2018 IEEE Industrial Cyber-Physical Systems (ICPS), St. Petersburg, 2018, pp. 434-439.
Yaushev, Aleksandr & Taranenko, Pavel & Loginovskiy, V.A.. (2017). Analysis of influence of mechanical boundary conditions on zero point shift of Coriolis flowmeter. Procedia Engineering. 206. 552-557. 10.1016/j.proeng.2017.10.515.
A.V. Ignatova, S.B. Sapozhnikov, P.A. Taranenko, Dynamic Verification of a Grid Structure Numerical Model Consisting of Different Stiffness Parts, Procedia Engineering, Volume 150, 2016, pp. 330-335.
A.A. Yaushev, P.A. Taranenko, V.A. Loginovskiy, Study of the Oscillation Modes of a Coriolis Flowmeter Using a Parametric Finite Element Model, Verified by the Results of Modal Testing, Procedia Engineering, Volume 150, 2016, pp. 336-340.
Mathematical Model of All-Terrain Truck / A.V. Keller //Proceedings of the ECCOMAS Thematic Conference on Multibody Dynamics 2015, Barcelona, June 29 – July 2, 2015.–2015.– C.1285-1296.
Taranenko P., Sliva O., Zadorozhnaya E. (2015) Dynamics Analysis of Flexible Rotor Supported by Floating Ring Bearings. In: Pennacchi P. (eds) Proceedings of the 9th IFToMM International Conference on Rotor Dynamics. Mechanisms and Machine Science, vol 21. Springer, Cham.
A.A. Yaushev, P.A. Taranenko, A.V. Zhestkov, Estimation of Residual Stresses Influence on Oscillation Modes of Welded Housing Part, Procedia Engineering, Volume 129, 2015, pp. 75-80.
Research educational center
“Composite materials and constructions”
The research educational center “Composite materials and constructions” of FSSFEI HPE “SUSU” was established in accordance with the Program of National Research University Development “Energy and resource efficient technology” in October 2011.
The research educational center “Composite materials and constructions” is a part of the innovative educational and engineering structure, the main activities of which are educational services and development by the order of a real sector of economy enterprises of original technologies or constructions made of composite materials on the basis of the available at the University modern technological and test base, as well as development of practice oriented research potential in the field of composite materials.
The REC objectives:
Development of a world-class laboratory in order to conduct research and development work in the field of composite materials and constructions production technology.
Carrying out innovative projects for companies in Russia and near-abroad countries on industrial design, structural engineering and technology of their production from composite materials.
Train specialists who are competitive in the world labour market and who have theoretical knowledge and practical skills (including a self-education skill) essential for production of new knowledge, goods and services in the field of composite materials and constructions technology.
The structure of REC “Composite materials and constructions”:
- Engineering department
- Test and technological laboratory
- Research laboratory
Research educational center “Composite materials and constructions”, office 236, 76, training and laboratory building, Lenin ave., Chelyabinsk, 454080, tel./fax: +7 (351) 267-90-19, 272-30-32, e-mail: shirokovab@susu.ru.
Director of the Center: Shirokov Aleksandr Bezhanovich, tel.: 267-90-19.
Deputy Director: Taran Sergey Mikhailovich, tel.: 267-90-19.
Leading Process Engineer: Kheruvimov Aleksandr Viacheslavovich, tel.: 267-95-94.
Description of the major projects carried out in the REC "Composite Materials and Construction"**
Development of shock-resistant composite materials and constructions for amphibious armored car:
Major publications in English-speaking rating scientific publications:
- Sapozhnikov S.B. and Cheremnykh S.I. The strength of fibre reinforced polymer under a complex loading // Journal of Composite Materials, 47(20–21) 2013, pp. 2525–2552.
- Sapozhnikov S.B., Ignatova A.V. Experimental and theoretical investigation of deformation and fracture of subcutaneous fat under compression. //Mechanics of Composite Materials: Volume 48, Issue 6 (2013), p. 649-654.
- Levinsky A.A., Sapozhnikov S.B., Grass T.S. Development of knife- and bullet-impact-resistant composite structures // Mechanics of Composite Materials: Volume 48, Issue 4 (2012), p. 405-414.
- Sapozhnikov S., Forental G. Numerical-experimental estimation of the mechanical properties of an epoxy nanocomposite // Mechanics of Composite Materials: Vol. 47, №5 (2011), P.521-528.
- Sapozhnikov S.B., Cheremnykh S.I., Maslakova A.G. Prediction of deformation and biaxial strength of fiber reinforced laminates for WWFE by using micro damage mechanics. Proc. of 13th European Conference of Composite Materials (ECCM-13), Stockholm, Sweden, June 2-5, 2008.
Design of fiberglass elements of the exterior of the dozer ‘ДЭТ - 400М’
LLC ‘Urla-Polimer’, Chelyabinsk
3. Design of fiberglass elements of the exterior and the interior from polymer materials of the cabin of the appliance crew for fire-fighting trucks on KAMAZ chassis
Customer: LLC ‘Urla-Polimer’, Chelyabinsk
Optimization of the construction of the framework of the body of a tram carriage 71-911
LLC ‘PC Transportation Systems’, Moscow
Development of the elements of the exterior of the cabin of ЭС2Г ‘Martin’ Electric Train from polymeric composite materials manufacturing technology
LLC ‘Ural Locomotives’
Development of manufacturing technology of torsion bar housing of rotor of the helicopter ‘ANSAT’ with RTM method
JSC ‘Helicopters of Russia’, Moscow
Design engineering of the cabin's interior elements, the tail and the compartment of the tram carriage 71-407 from polymer materials
OJSC ‘Ural Plant of Transport Machine Building’ (OJSC ‘Uraltransmach’), Yekaterinburg
Research and development work on the development and production of the pilot model of a tram car 71-409М
: OJSC ‘Ural Plant of Transport Machine Building’ (OJSC ‘Uraltransmach’), Yekaterinburg
Development of exterior and interior elements from polymer materials of a half-low floor medium-sized bus
LLC ‘D.V.S.eco’, Moscow
Development of the case structure 60/61 – Э3480 СБ from polymer composite materials
: JSC SDB ‘Turbina’, Chelyabinsk
Optimization of the construction of a tram car truck 71-409’
Customer: OJSC ‘Ural Plant of Transport Machine Building’ (OJSC ‘Uraltransmach’), Yekaterinburg
Construction development of floats and units from polymer composite materials
: OJSC ‘Miass Machine Building Plant’, Miass
Development of a detail “Apparatus casing” of ТЗ class from composite materials
: LLC ‘Ural Railcar-Building Design Office’ (LLC UKBV), Nizhny Tagil
Development of high-quality production of a model range of innovative modular structure energy-saving tram cars for development of municipal transport systems
Customer: OJSC ‘Ural Plant of Transport Machine Building’ (OJSC Uraltransmach’), Yekaterinburg
Optimization of the tram car body frame 71-411
: LLC ‘ATOM Engineering’, Moscow
All work on projects is performed under the guidance of the following research supervisors:
- Avdin Viacheslav Vikotorovich, Dr.Sc. (Engineering), professor, dean of the Faculty of Chemistry, director of the Research Educational Center “Nanotechnology”;
- Astashkin Vladimir Mikhailovich, Dr.Sc. (Engineering), Honored Inventor of the Russian Federation, professor at the Department of Building Structures and Engineering Constructions, Faculty of Architecture and Construction of SUSU.
- Sapozhnikov Sergey Borisovich, Dr.Sc. (Engineering), professor, research supervisor of the REC “Composite Materials and Constructions”; member of the Board for doctoral thesis defense at SUSU, director of the Research Educational Center “Nanotechnology”, professor at the Department of Applied Mechanics, Dynamics and Strength of Machines) member of the European Society for Composite Materials; member of the American Society of Mechanical Engineers; member of the Nanotechnological Society of Russia; member of the editorial board of the journal “PNRPU Mechanics Bulletin” (the journal is included in the Scopus system); member of the editorial board of the journal “Bulletin of South Ural State University”, series: Mathematics, Mechanics, Physics”; executive editor of the journal “Bulletin of South Ural State University”, series: Mechanical Engineering”, stipend holder of George Soros Fund
The REC “Composite materials and constructions” cooperates with the Institute of Polymer Mechanics of the University of Latvia, Riga
Address:
South Ural State University
Office 001, Institute of Sport, Tourism and Service
60 Soni Krivoi Street
Tel.: +7 351 267 96 81
E-mail: rcss@istis.ru
In order to lead in sports competitions, athletes have to show great results. That is why athletes’ preparation for competition is a long multi-step process, in which different specialists are engaged (trainer, physiologist, sports medicine doctor, nutritionist, etc). This multidisciplinary approach to sports is impossible without solid scientific studies.
Today, the most widely-debated issues in sports science requiring further studies concern athletes’ preparation and increase of their endurance, strength and speed without pharmacological agents. More specifically, scientists study how to:
develop local muscular endurance under hypoxia (in conditions of middle mountains, cyclic normobaric hypoxia, etc);
increase the overall endurance; how to fight fatigue and exhaustion and speed up recovery process with the help of physiological methods (hydrotreating, stretching, cryotherapy, vibration, massage, etc);
model and predict athletes’ adaptive physiological processes at different stages of training and competition, using computer technology and creating databases.
Total body composition analyzer Tanita (Japan) - digital scales for body fat and muscles mass which determine the individual norms.
Express urine analyzer - after 40 seconds, determines seven key indicators of urine (normal and abnormal contents).
Ergospirometry (Schiller) - helps to determine the reaction of a person’s heart, lung, vascular and metabolic system under physical stress and develop an effective training program.
Stabilometric platform - determines the risk factors for musculoskeletal disorders development; studies the vestibular system.
3D scanner - spatial 3D imaging of the spine; diagnostics of organs and muscle tone.
Express blood analyzer - non-invasive blood analysis (5 sensors attaching to the body); determines 117 parameters after 3-10 minutes.
Address:
South Ural State University
Office 035B, Main University Building
76, Prospect Lenina
E-mail: akhmedianovam@susu.ru
Head
Aleksandr Akhmedianov
Under the University’s strategic initiative plan, the Laboratory conducts groundbreaking research in the field of metallurgy to improve the quality of existing materials and develop the new ones with unique properties.
What we do
Measure thermal expansion and contraction of materials caused by their industrial exploitation
Acquire new knowledge on deformation behaviour, physical properties and structure of materials
Develop new methods of forming processes, heat treatment, and welding
Our services
Investigation of materials stress-strain behaviour and microstructure in predefined thermomechanical conditions
Modelling multipass rolling process of steel and alloys
Experimental simulation of welding cycles to reveal HAZ microstructure and mechanical properties
Research on phase transformation and precipitation kinetics, determination of CCT and TTT diagrams
Determination of non-recrystallization temperature (Tnr)
Modelling different methods of thermal and thermomechanical processing
Conducting creep and low cycle fatigue tests and hot torsion tests
Our equipment
The Laboratory is equipped with the thermo-mechanical Simulator – Gleeble® 3800. The Simulator uses Mobile Conversion Units (MCUs) consisting of a test chamber with grips or anvils and mounted on wheels so that one MCU may be rolled away from the Gleeble and another MCU configuration rolled on. It allows performing advanced thermo-mechanical experiments, such as high-temperature tension/compression, plane strain compression, torsion, and sequential compression in two mutually orthogonal directions in contrast to the other popular test machines.
Our research
Hot deformation behaviour and structure of pipe steels
Deformation behaviour of aluminium alloys used in aerospace engineering
Low-cycle fatigue of heat-resistant materials used in aerospace engineering and nuclear industry
Mathematical modelling of hot deformation of metals
Our partners
Our publications
Rushchits, Sergey & Aryshensky, E.V. & Sosedkov, Sergei & Akhmedianov, Aleksandr. (2016). Modeling the Hot Deformation Behavior of 1565ch Aluminum Alloy. Key Engineering Materials. 684. 35-41. 10.4028/www.scientific.net/KEM.684.35.
Yashin, Vasiliy & V Aryshensky, E & F Kawalla, R & Serebryany, Vladimir & Rushchits, Sergey. (2016). Investigation impact of stressed state conditions and thermomechanical parameters on the texture and structure evolution in 1565ph aluminium alloy. IOP Conference Series: Materials Science and Engineering. 156. 012012. 10.1088/1757-899X/156/1/012012.
Rushchits, Sergey & Aryshenskii, Evgenii & Kawalla, Rudolf & Serebryany, Vladimir. (2016). Investigation of Texture Structure and Mechanical Properties Evolution during Hot Deformation of 1565 Aluminum Alloy. Materials Science Forum. 854. 73-78. 10.4028/www.scientific.net/MSF.854.73.
S.P. Samoilov and A.O. Cherniavsky, "Creep and Long-Term Strength of Molybdenum Alloy", Materials Science Forum, Vol. 843, pp. 28-33, 2016
S.P. Samoilov and A.O. Cherniavsky, "Work Softening and Low Cycle Fatigue of Molybdenum Alloy under Force-Controlled Loading and Elevated Temperatures", Materials Science Forum, Vol. 870, pp. 219-225, 2016
A.M. Akhmed'yanov et al., "Hot Deformation of Martensitic and Supermartensitic Stainless Steels", Materials Science Forum, Vol. 870, pp. 259-264, 2016
Lykov, Pavel & Safonov, E.V. & Akhmedianov, Aleksandr. (2016). Selective Laser Melting of Copper. Materials Science Forum. 843. 284-288. 10.4028/www.scientific.net/MSF.843.284.
Baitimerov, R. M., Lykov, P. A., GU, D., Zherebtcov, D. A., Nerush, S. V., & Akmedianov, A. M. (2016). Selective Laser Melting Of Nickel Base Heat Resistance Alloy EP648. Proceedings of the 2nd International Conference on Progress in Additive Manufacturing (Pro-AM 2016), 445-450.
Pavel, L., Rustam, B., Sergei, S., Dmitrii, Z., Ruslan, A., & Aleksandr, A. (2016). The Manufacturing Of Cu-Al2O3 Composite Products: Study Of Process Parameters, Structure And Mechanical Properties. Proceedings of the 2nd International Conference on Progress in Additive Manufacturing (Pro-AM 2016), 494-499.
Address:
South Ural State University
Office 108, University Building №3G
87a, Prospect Lenina
Tel.: + 7 351 267 90 06
E-mail: supercomputer@susu.ru
Web: http://supercomputer.susu.ru/en
The supercomputers of South Ural State University are at the core of the University’s research performance. These facilities enable researchers to perform a broad range of computationally demanding tasks in the fields of engineering, natural and human sciences, and IT.
The powerful capabilities of SUSU supercomputers are currently used for more than 250 research projects, including commercial projects. The first-class facilities are ranked among the world’s most powerful supercomputers by various ranking agencies.
Learn more
Шаходатнома, Свiдоцтво, Diplomi, Hochschulreife – это названия документов об образовании студентов, которые приехали на обучение в Россию из других стран. Какой из них дает право доступа к обучению в России рассказала директор Экспертного центра оценки документов об образованииВиктория Шарманова.
Курсы немецкого языка для взрослых проводятся в рамках деятельности центров встреч российских немцев. Обучение построено не только на специально разработанном учебном комплексе Hallo, Nachbarn! Neu, но и на этнокультурном материале, в том числе региональном. В программе занятий присутствует страноведческий компонент, а также информация об истории российских немцев, их традициях и языковых особенностях (диалектах).
C сентября в институте экономики, торговли и технологий ЮУрГУ на кафедре «Оборудование и технологии пищевых производств» начала обуче-ние группа студентов из КНР. Они учатся очно на русском языке по програм-ме двойных бакалаврских дипломов «Технологические машины и оборудование». Alma Mater китайских студентов – Сюйчанский университет – расположен в провинции Хэнань, г. Сюйчан и является одним из партнеров ИЭТТ.
Подведены итоги всероссийского конкурса «Пресс-служба вуза-2015», который проводится ежегодно (с 2013 года) в целях развития информационной открытости системы образования.
Организаторы конкурса подчеркивают, как важно поощрять творческую активность пресс-служб вузов, способствуя тем самым усилению имиджа учебных заведений и созданию единого информационного пространства профессионального образовательного сообщества.