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Defectiveness allows you to adequately consider the mechanism of destruction of objects as a process of development of cracks. Defectiveness allows you to adequately consider the mechanism of destruction of objects as a process of development of cracks. If this criterion is violated, the weak link defect develops into a trunk crack. Kraievye zadachi i singuliarnye integralnye uravneniia so sdvigom. prats, Suchasni tekhnolohii v mashinobuduvanni. Vvedenie v metody optimizatsii i teoriiu tekhnicheskikh sistem. Matematicheskie metody v mekhanike razrusheniia. Karpenko G. Tekhnologiia elektrotekhnicheskogo proizvodstva.
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15. Simulation of thermomechanical processes in functionally-gradient materials of inhomogeneous structure in the manufacturing and operation of rocket structural elements

Authors:

Usov A. V., Kunitsyn М. V.

Organization:

Institute of Mechanical Engineering of Odessa National Polytechnic University, Odessa, Ukraine

Page: Kosm. teh. Raket. vooruž. 2020, (1); 137-148

DOI: https://doi.org/10.33136/stma2020.01.137

Language: Ukrainian

Annotation: The strength of real solids depends essentially on the defect of the structure. In real materials, there is always a large number of various micro defects, the development of which under the influence of loading leads to the appearance of cracks and their growth in the form of local or complete destruction. In this paper, based on the method of singular integral equations, we present a unified approach to the solution of thermal elasticity problems for bodies weakened by inhomogeneities. The purpose of the work is to take into account the heterogeneities in the materials of the elements of the rocket structures on their functionally-gradient properties, including strength. The choice of the method of investigation of strength and destruction of structural elements depends on the size of the object under study. Micro-research is related to the heterogeneities that are formed in the surface layer at the stage of preparation, the technology of manufacturing structural elements. Defectiveness allows you to adequately consider the mechanism of destruction of objects as a process of development of cracks. In studying the limit state of real elements, weakened by defects and constructing on this basis the theory of their strength and destruction in addition to the deterministic one must consider the probabilistic – statistical approach. In the case of thermal action on structural elements in which there are uniformly scattered, non-interacting randomly distributed defects of the type of cracks, the laws of joint distribution of the length and angle of orientation of which are known, the limiting value of the heat flux for the balanced state of the crack having the length of the “weakest link” is determined. The influence of heterogeneities of technological origin (from the workpiece to the finished product) that occur in the surface layer in the technology of manufacturing structural elements on its destruction is taken into account by the developed model. The strength of real solids depends essentially on the defect of the structure. In real materials, there are always many various micro defects, the development of which under the influence of loading leads to the appearance of cracks and their growth in the form of local or complete destruction. In this paper, based on the method of singular integral equations, we present a unified approach to the solution of thermal elasticity problems for bodies weakened by inhomogeneities. The purpose of the work is to take into account the heterogeneities in the materials of the elements of the rocket structures on their functionally gradient properties, including strength. The choice of the method of investigation of strength and destruction of structural elements depends on the size of the object under study. Micro-research is related to the heterogeneities that are formed in the surface layer at the stage of preparation, the technology of manufacturing structural elements. Defectiveness allows you to adequately consider the mechanism of destruction of objects as a process of development of cracks. In studying the limit state of real elements, weakened by defects and constructing on this basis the theory of their strength and destruction besides the deterministic one must consider the probabilistic – statistical approach. With thermal action on structural elements in which there are uniformly scattered, non-interacting randomly distributed defects of the cracks, the laws of joint distribution of the length and angle of orientation of which are known, the limiting value of the heat flux for the balanced state of the crack having the length of the “weakest link” is determined. The influence of heterogeneities of technological origin (from the workpiece to the finished product) that occur in the surface layer in the technology of manufacturing structural elements on its destruction is taken into account by the developed model. The solution of the singular integral equation with the Cauchy kernel allows one to determine the intensity of stresses around the vertexes of defects of the cracks, and by comparing it with the criterion of fracture toughness for the material of a structural element, one can determine its state. If this criterion is violated, the weak link defect develops into a trunk crack. Also, a criterion correlation of the condition of the equilibrium defect condition with a length of 2l was got, depending on the magnitude of the contact temperature. When the weld is cooled, it develops “hot cracks” that lead to a lack of welding elements of the structures. The results of the simulation using singular integral equations open the possibility to evaluate the influence of thirdparty fillers on the loss of functional properties of inhomogeneous systems. The exact determination of the order and nature of the singularity near the vertices of the acute-angled imperfection in the inhomogeneous medium, presented in the analytical form, is necessary to plan and record the corresponding criterion relations to determine the functional properties of inhomogeneous systems.

Key words: mathematical model, linear systems, singular integral equations, impulse response, defects, criteria for the destruction of stochastically defective bodies, Riemann problem, thermoelastic state

Bibliography:
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8. Usov A. V. Matematicheskoe modelirovanie protsessov kontrolia pokrytiia elementov konstruktsii na baze SIU. Problemy mashinostroeniia. 2010. Т.13. №1. s. 98−109.
9. Kunitsyn M. V., Tribocorrosion research of NI-Al2O3/TIO2 composite materials obtained by the method of electrochemical deposition. M.V. Kunitsyn, A.V Usov. Zb. nauk. prats, Suchasni tekhnolohii v mashinobuduvanni. Vyp. 12. Kharkiv: NTU KhPI, 2017. s. 61−70.
10. Savruk M. P. Chislennyi analiz v ploskikh zadachakh teorii tershchin. K.: Nauk. dumka, 1989. 248 s.
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12. Popov G. Ya. Kontsentratsiia uprugikh napriazhenii vozle shtampov, razrezov, tonkikh vkliuchenii i podkreplenii. M.: Nauka, 1982. 344 s.
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19. Rais Dzh. Matematicheskie metody v mekhanike razrusheniia. Razrushenie. V 2 t. М.: Mir, 1975.Т.2. S. 204−335.
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15.1.2020 Simulation of thermomechanical processes in functionally-gradient materials of inhomogeneous structure in the manufacturing and operation of rocket structural elements
15.1.2020 Simulation of thermomechanical processes in functionally-gradient materials of inhomogeneous structure in the manufacturing and operation of rocket structural elements
15.1.2020 Simulation of thermomechanical processes in functionally-gradient materials of inhomogeneous structure in the manufacturing and operation of rocket structural elements

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]]> 26.2.2017 State of the Art and Prospects for Nuclear-Quadrupole Resonance Thermometry in Ukraine https://journal.yuzhnoye.com/content_2017_2/annot_26_2_2017-en/ Wed, 09 Aug 2023 12:49:55 +0000 https://journal.yuzhnoye.com/?page_id=29962
State of the Art and Prospects for Nuclear-Quadrupole Resonance Thermometry in Ukraine Authors: Karpenko V. Content 2017 (2) Downloads: 19 Abstract views: 590 Dynamics of article downloads Dynamics of abstract views Downloads geography Country City Downloads USA Boardman; Baltimore; Monroe; Ashburn; Columbus; Ashburn; Seattle; Portland; San Mateo; San Mateo 10 Singapore Singapore; Singapore; Singapore; Singapore; Singapore; Singapore; Singapore 7 Ukraine Dnipro; Dnipro 2 Downloads, views for all articles Articles, downloads, views by all authors Articles for all companies Geography of downloads articles Karpenko V. State of the Art and Prospects for Nuclear-Quadrupole Resonance Thermometry in Ukraine Автори: Karpenko V. State of the Art and Prospects for Nuclear-Quadrupole Resonance Thermometry in Ukraine Автори: Karpenko V. State of the Art and Prospects for Nuclear-Quadrupole Resonance Thermometry in Ukraine Автори: Karpenko V.
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26. State of the Art and Prospects for Nuclear-Quadrupole Resonance Thermometry in Ukraine

Authors:

Karpenko V. D.1, Kovalchuk N. О.2, Lenovenko А. М.3, Solod S. D.1, Suvorov O. G.1

Organization:

Yangel Yuzhnoye State Design Office, Dnipro, Ukraine1; Ivan Franko National University of Lviv, Lviv, Ukraine2; Research and Production Center for Standartization, Metrology, Lviv, Ukraine3

Page: Kosm. teh. Raket. vooruž. 2017 (2); 146-150

Language: Russian

Annotation: The information is presented on the development of nuclear quadrupole resonace thermometry instruments at Yuzhnoye SDO and other Ukrainian companies. The problems are analyzed arising at the creation of standard wide-band nuclear quadrupole resonance temperature meters, the ways to overcome them, and the possibilities of improving due to the use of modern integrated electronics. It is shown that the methods of building the instruments based on nuclear quadrupole resonance proposed and implemented in Ukraine are not inferior to the foreign ones.

Key words:

Bibliography:
1. Dehmelt H. G., Krüger H. Kurze Originalmitteilungen. Kernquadrupolfrequenzen in festem Dichloräthylen. Naturwiss. No. 37. 1950. P. 111–112.
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3. Lenovenko A. M. Quantum Portable Working Frequency Standard / А. М. Lenovenko, V. V. Parakuda, N. O. Koval’chuk. The ІХ International Scientific-Technical Conference “Gyro Technologies, Navigation, Motion Control, and Aerospace Hardware Designing” (Ukraine, Kyiv, 17–18 April, 2013): Proceedings, Part 1. К., 2013. P. 218–223.
4. Benedek G. B., Kushida T. Precise Nuclear Resonance Thermometry. The Review of Scientific Instruments. 1957. Vol. 28, No. 2. P. 92-95.
5. Vanier J. Temperature Dependence of the Pure Nuclear Quadrupole Resonance Frequency in KClO3. Canadian Journal of Physics. 1960. Vol. 38, No. 11. P. 1397-1405.
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7. NQR standard Thermometer (model 2571). Catalogue of Yokogawa Electric Works. Japan, 1983.
8. Ohte A., Iwaoka H. A Precision on Nuclear Quadrupole Resonance Thermometer. IEEE Trans. on Instrum. аnd Measurement. 1976. Vol. IM-25, No. 4. P. 357-362.
9. Ohte A., Iwaoka H. Accurate Calibration A Precision of New NQR Thermometer (203 K to 398 K Range Calibration at the NRML). Metrologia. 1979. Vol. 15, No. 4. P. 195–199.
10. Utton D. B. Sample purity and the N.Q.R. of Cl35 in KClO3 at 0-C. J. Res. NBS. 1967. 71A. P. 125.
11. Lenovenko A. M., Koval’chuk N. O. Standard Nuclear-Quadrupole Resonance Thermometer YaKRT-5M. Proceedings of VІІ International Scientific-Technical Conference “Metrology and Measuring Instruments ” (Metrology 2010) in 2 volumes (Kharkiv, 12-14 October, 2010). P. 247-250.
12. Lenovenko A. Measuring Complex for Calibration, Checking and Certification of Temperature Measurement Instruments Based on Standard Nuclear-Quadrupole Thermometer of First Class YaKRT-5M / А. Lenovenko, B. Stadnik, P. Stolyarchuk, V. Parakuda, N. Koval’chuk. Measuring Instruments and Metrology. Lviv, 2013. No. 74. P. 127-132.
13. Lenovenko A. M. Theoretical and Experimental Investigations of Super-Regenatory Detectors of Nuclear Quadrupole Resonance / Dissertation of Candidate of Physical and Mathematical Sciences. Lviv, 1971. 136 p.
14. Vasilyuk V. et al. Nature of Signal in Super-Regenatory Detectors of Nuclear Quadrupole Resonance / Vasilyuk V., Lenovenko А., Stolyarchuk P. Measuring Instruments and Metrology. 2005. No. 65. P. 7–10.

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26.2.2017 State of the Art and Prospects for Nuclear-Quadrupole Resonance Thermometry in Ukraine
26.2.2017 State of the Art and Prospects for Nuclear-Quadrupole Resonance Thermometry in Ukraine
26.2.2017 State of the Art and Prospects for Nuclear-Quadrupole Resonance Thermometry in Ukraine
]]> 13.2.2016 Experience of Developing Thermometric Instruments Based on Nuclear Quadrupole Resonance https://journal.yuzhnoye.com/content_2016_2-en/annot_13_2_2016-en/ Tue, 06 Jun 2023 12:01:44 +0000 https://journal.yuzhnoye.com/?page_id=28327
Experience of Developing Thermometric Instruments Based on Nuclear Quadrupole Resonance Authors: Karpenko V. Content 2016 (2) Downloads: 22 Abstract views: 203 Dynamics of article downloads Dynamics of abstract views Downloads geography Country City Downloads USA Boardman; Baltimore; North Bergen; Plano; Dublin; Monroe; Ashburn; Ashburn; Boardman; Seattle; Seattle; Portland; San Mateo; Boardman; Boardman 15 Singapore Singapore; Singapore; Singapore; Singapore; Singapore 5 Ukraine Dnipro; Dnipro 2 Downloads, views for all articles Articles, downloads, views by all authors Articles for all companies Geography of downloads articles Karpenko V. Experience of Developing Thermometric Instruments Based on Nuclear Quadrupole Resonance Автори: Karpenko V. Experience of Developing Thermometric Instruments Based on Nuclear Quadrupole Resonance Автори: Karpenko V. Experience of Developing Thermometric Instruments Based on Nuclear Quadrupole Resonance Автори: Karpenko V.
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13. Experience of Developing Thermometric Instruments Based on Nuclear Quadrupole Resonance

Authors:

Karpenko V. D., Solod S. D., Kolesnichenko V. K., Pokatayev V. M., Suvorov O. G.

Organization:

Yangel Yuzhnoye State Design Office, Dnipro, Ukraine

Page: Kosm. teh. Raket. vooruž. 2016 (2); 80-84

Language: Russian

Annotation: The paper describes development of the devices for the nuclear quadrupole resonance thermometry at Yuzhnoye SDO and other Ukraine’s enterprises and considers capabilities of the enterprises to manufacture such devices. Also given is refined analytical dependence for temperature calculation using the frequency of the nuclear quadrupole resonance in Bertholette salt within the ±40°C temperature range.

Key words:

Bibliography:

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13.2.2016 Experience of Developing Thermometric Instruments Based on Nuclear Quadrupole Resonance
13.2.2016 Experience of Developing Thermometric Instruments Based on Nuclear Quadrupole Resonance
13.2.2016 Experience of Developing Thermometric Instruments Based on Nuclear Quadrupole Resonance
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