The dependence of thermal processes in non-metallic heterogeneous materials on mechanical vibration loads
dc.citation.epage | 90 | |
dc.citation.issue | 2 | |
dc.citation.journalTitle | Український журнал із машинобудування і матеріалознавства | |
dc.citation.spage | 83 | |
dc.citation.volume | 9 | |
dc.contributor.affiliation | Odesa Polytechnic National University | |
dc.contributor.affiliation | Academy of Professional Studies Sumadija | |
dc.contributor.author | Tonkonogyi, Volodymyr | |
dc.contributor.author | Holofieieva, Maryna | |
dc.contributor.author | Levynskyi, Oleksandr | |
dc.contributor.author | Klimov, Sergii | |
dc.contributor.author | Dasic, Predrag | |
dc.coverage.placename | Львів | |
dc.coverage.placename | Lviv | |
dc.date.accessioned | 2024-02-07T08:51:01Z | |
dc.date.available | 2024-02-07T08:51:01Z | |
dc.date.created | 2023-02-28 | |
dc.date.issued | 2023-02-28 | |
dc.description.abstract | One of the promising directions in the development of mechanical engineering is using of new non-metallic heterogeneous materials with high physical and mechanical properties. Such materials consist of two or more components (reinforcing filler and polymer matrix) and have specific physical and mechanical properties that are different from the properties of the constituent components. This is achieved by forming a complex developed structure. Reliable control methods play an important role in ensuring the quality of such structures. The paper considers an acoustic infrared thermometric method of control, which is based on the interaction of structural defects with acoustic waves. At the same time, thermal energy is generated at their boundaries, which is an indicator not only of the presence of cracks but also of their direction and development. a mathematical model has been developed that describes the transformation of the energy of mechanical vibrations into thermal energy, which occurs in non-metallic heterogeneous materials. | |
dc.format.extent | 83-90 | |
dc.format.pages | 8 | |
dc.identifier.citation | The dependence of thermal processes in non-metallic heterogeneous materials on mechanical vibration loads / Volodymyr Tonkonogyi, Maryna Holofieieva, Oleksandr Levynskyi, Sergii Klimov, Predrag Dasic // Ukrainian Journal of Mechanical Engineering and Materials Science. — Lviv : Lviv Politechnic Publishing House, 2023. — Vol 9. — No 2. — P. 83–90. | |
dc.identifier.citationen | The dependence of thermal processes in non-metallic heterogeneous materials on mechanical vibration loads / Volodymyr Tonkonogyi, Maryna Holofieieva, Oleksandr Levynskyi, Sergii Klimov, Predrag Dasic // Ukrainian Journal of Mechanical Engineering and Materials Science. — Lviv : Lviv Politechnic Publishing House, 2023. — Vol 9. — No 2. — P. 83–90. | |
dc.identifier.doi | doi.org/10.23939/ujmems2023.02.083 | |
dc.identifier.uri | https://ena.lpnu.ua/handle/ntb/61149 | |
dc.language.iso | en | |
dc.publisher | Видавництво Львівської політехніки | |
dc.publisher | Lviv Politechnic Publishing House | |
dc.relation.ispartof | Український журнал із машинобудування і матеріалознавства, 2 (9), 2023 | |
dc.relation.ispartof | Ukrainian Journal of Mechanical Engineering and Materials Science, 2 (9), 2023 | |
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dc.relation.references | [12] P. Frankovský, D. Hroncová, D. Delyová, I. Virgala, “Modeling of dynamic systems in simulation enviroment matlab/simulink – SimMechanics”, American Journal of Mechanical Engineering, No. 1, pp. 282–288, 2013. | |
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dc.relation.references | [15] V. M. Tonkonogyi, M. A. Holofieieva, O. V. Nemchenko, A. A. Perpery, “Issledovaniye osobennostey formirovaniya akusticheskikh poley pri izmerenii dissipativnykh svoystv nemetallicheskikh geterogennykh materialov” [“Investigation of the formation of acoustic fields when measuring the dissipative properties of nonmetallic heterogeneous materials”], Bulletin of the Zhytomyr State Technological University. Series: Technical sciences], vol. 2, No. 73, pp. 106–109, 2015 [in Russian]. | |
dc.relation.references | [16] A. L. Gyekenyesi, “Thermoelastic Stress Analysis: An NDE Tool for Residual Stress Assessment of Metallic Alloys”, Journal of Engineering for Gas Turbines and Power, vol. 124, No. 2, pp. 383–387, 2002. | |
dc.relation.references | [17] W. C. Zhu, C. A. Tang, “Numerical simulation of Brazilian disk rock failure under static and dynamic loading”, International Journal of Rock Mechanics and Mining Sciences, vol. 43, No. 2, pp. 236–252, 2006. | |
dc.relation.referencesen | [1] P. Melnichuk, V. Loev, V. Snitsar, S. Klimenko, "Modern materials at the workbench", Bulletin of ZhDTU, vol. 1, No. 52, pp. 38–50, 2010. | |
dc.relation.referencesen | [2] Yu. G. Bezymyany, N. H. Brodnykovsky, E. A. Koziratskyi, O. V. Talko, "Acoustic non-destructive control of a multicomponent alloy based on niobium", Bulletin of the National Technical University "KhPI". Series: Electric power engineering and converting technology. Coll. of science Working , vol. 19, No. 1128, pp. 119–126, 2015. | |
dc.relation.referencesen | [3] D. Roylance, "Introduction to composite materials". Department of material science and engineering, Massachusetts Institute of Technology, Cambridge, 2000. | |
dc.relation.referencesen | [4] V. K. Mathur, "Composite materials from local resources", Construction and Building Materials, vol. 20, No. 7, pp. 470–477, 2006. | |
dc.relation.referencesen | [5] M. A. Holofieieva, V. M. Tonkonogyi, M. E. Kolesnyk, "Control of the properties of materials with a multi-level structure", East European Scientific Journal, vol. 4, pp. 61–65, 2015. | |
dc.relation.referencesen | [6] Yang Zhang, Yuqi Guo, Yan Chen, Luo Kang, Yabin Cao, Haibo Qi and Shaopu Yang, "Ultrasonic-Assisted Laser Metal Deposition of the Al 4047Alloy", Metals, vol. 9, No. 10, 1111, 2019. | |
dc.relation.referencesen | [7] G. O. Oborskyi, O. S. Levynskyi, M. O. Holofieieva, "Doslidzhennya vplyvu vyprominyuval’noyi zdatnosti materialiv na tochnist’ metodu teploviziynoho kontrolyu". ["Study of the influence of the emissivity of materials on the accuracy of the thermal imaging control method’]. Tekhnolohichnyy audyt i rezervy vyrobnytstva [Technological audit and production reserves], vol. 2/3, No. 28, pp. 4–7, 2016 [in Ukrainian]. | |
dc.relation.referencesen | [8] Yin Li, Wei Zhang, Zheng-wei Yang, Jin-yu Zhang, Sheng-jie Tao, "Low-velocity impact damage characterization of carbon fiber reinforced polymer (CFRP) using infrared thermography", Infrared Physics & Technology, No. 76, pp. 91–102, 2016. | |
dc.relation.referencesen | [9] J. Wang, S. Zheng, Visible and Infrared image fusion method based on wavelet transform and YUV, Journal of Northwestern Poly Technical University, vol. 3, No. 33, pp. 208–211, 2013. | |
dc.relation.referencesen | [10] L. Furmankiewicz, M. Kozioł, R. Rybski, R. Szulim, "Concept and Implementation of Measurement Systems for Stationary and Remote Testing of Sensors for Electrical and Non-Electrical Quantities", Sensors, vol. 23, No. 4, 1928, 2023. | |
dc.relation.referencesen | [11] V. Vavilov, D. Nesteruk, V. Khorev, "Ultrasonic and inductive IR Thermographic Procedures as Newly – Emerged Technigues in Thermal NDT", Annual Journal of Electronics, vol. 6, No. 2, pp. 102–109, 2012. | |
dc.relation.referencesen | [12] P. Frankovský, D. Hroncová, D. Delyová, I. Virgala, "Modeling of dynamic systems in simulation enviroment matlab/simulink – SimMechanics", American Journal of Mechanical Engineering, No. 1, pp. 282–288, 2013. | |
dc.relation.referencesen | [13] V. M. Tonkonogyi, M. O. Holofieieva, V. O Balan, "Doslidzhennya kharakterystyk rozsiyuvannya enerhiyi kolyvan’v bazovykh detalyakh verstativ z syntehranu" ["Study of the characteristics of vibration energy dissipation in the basic parts of syntegran machines"], Cutting and instruments in technological systems: International scientific and technical journal, vol. 85, pp. 282–287, 2015. [in Ukrainian] | |
dc.relation.referencesen | [14] J. Krautkrämer, H. Krautkrämer. Ultrasonic testing of materials. Springer Science & Business Media, 2013. | |
dc.relation.referencesen | [15] V. M. Tonkonogyi, M. A. Holofieieva, O. V. Nemchenko, A. A. Perpery, "Issledovaniye osobennostey formirovaniya akusticheskikh poley pri izmerenii dissipativnykh svoystv nemetallicheskikh geterogennykh materialov" ["Investigation of the formation of acoustic fields when measuring the dissipative properties of nonmetallic heterogeneous materials"], Bulletin of the Zhytomyr State Technological University. Series: Technical sciences], vol. 2, No. 73, pp. 106–109, 2015 [in Russian]. | |
dc.relation.referencesen | [16] A. L. Gyekenyesi, "Thermoelastic Stress Analysis: An NDE Tool for Residual Stress Assessment of Metallic Alloys", Journal of Engineering for Gas Turbines and Power, vol. 124, No. 2, pp. 383–387, 2002. | |
dc.relation.referencesen | [17] W. C. Zhu, C. A. Tang, "Numerical simulation of Brazilian disk rock failure under static and dynamic loading", International Journal of Rock Mechanics and Mining Sciences, vol. 43, No. 2, pp. 236–252, 2006. | |
dc.rights.holder | © Національний університет “Львівська політехніка”, 2023 | |
dc.rights.holder | © Tonkonogyi V., Holofieieva M., Levynskyi O., Klimov S., Dasic P. 2023 | |
dc.subject | non-metallic heterogeneous materials | |
dc.subject | acoustic infrared method of control | |
dc.subject | flaw detection | |
dc.subject | thermal energy | |
dc.subject | the energy of mechanical vibrations | |
dc.title | The dependence of thermal processes in non-metallic heterogeneous materials on mechanical vibration loads | |
dc.type | Article |
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