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Analysis of the accuracy, stiffness, and stability of antennas using simulation modeling
Назва | Analysis of the accuracy, stiffness, and stability of antennas using simulation modeling |
Назва англійською | Analysis of the accuracy, stiffness, and stability of antennas using simulation modeling |
Автори | Taras Dubynyak, Volodymyr Nevozhai, Andrii Remez, Valerriy Bukhovets, Andrii Senyk |
Принадлежність | Ternopil National Ivan Puluj Technical University, Ternopil, Ukraine |
Бібліографічний опис | Analysis of the accuracy, stiffness, and stability of antennas using simulation modeling / Taras Dubynyak, Volodymyr Nevozhai, Andrii Remez, Valerriy Bukhovets, Andrii Senyk // Scientific Journal of TNTU. — Tern.: TNTU, 2024. — Vol 115. — No 3. — P. 30–43. |
Bibliographic description: | Dubynyak T., Nevozhai V., Remez A., Bukhovets V., Senyk A. (2024) Analysis of the accuracy, stiffness, and stability of antennas using simulation modeling.
Scientific Journal of TNTU (Tern.), vol 115, no 3, pp. 30–43. |
DOI: | https://doi.org/10.33108/visnyk_tntu2024.03.030 |
УДК |
531.374 |
Ключові слова |
electric arc spraying, mesh, reinforced composite material, punch, mirror, antenna. |
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In the course of the work, the process of forming reflective shells and finding the position of grid elements after deformation was investigated. Fixation of the mesh nodes by the method of electric arc spraying. After that, a composite material such as polystyrene is applied to form reflective shells. The result of the work is the formation of the antenna array shell by electric arc spraying and the application of the composite material. Schematic of the mirror structure: spherical and cylindrical shells docked with a ring. The shell for the ring is a kind of elastic base that prevents its movement. The effect of the shell when considering the motion of the ring under the action of pulse pressure is taken into account by introducing contact forces of interaction, which are determined when solving the corresponding contact problems of the mating. The assessment of the stiffness-strength characteristics of antennas of solid and reinforced structures is graphically presented, and their stress-strain state is calculated under the action of wind load and gravity. The presented research examines offset antennas with the aim of unlocking their potential and improving their application in modern radio engineering systems. In the context of constant technological development and the growing need for communication, offset antennas are coming to the fore as an effective and innovative solution. The paper deals with the problem of local stability under load. It is important to study the corresponding problems under the influence of an edge dynamic load arising from vibrations of the antenna mirror and transmitted from the base. The dynamic stability of a mirror as a spherical segment bonded to a ring is investigated. For the sake of consistency, we assume that a cylindrical shell of finite length is attached to this ring (the case when the antenna mirror is made in the form of only one spherical shell will be treated as a special case). The presence of a cylindrical shell is associated with a design solution to protect the antenna from external influences, such as an incoming flow. The motion that occurs after the application of the pulse consists of axisymmetric vibrations and bending vibrations associated with the inevitable deviations of the pulse from a uniform one. |
ISSN: | 2522-4433 |
Перелік літератури |
1. Yavorska M. I., Dubyniak T. S., Manziy O. S., Andreichuk S. K. Study of the process and problems arising during the formation of shells by the method of electric arc spraying. MMMTES (Tern., November 22–23, 2022), pp. 85–87 [In Ukrainian].
2. Dubynyak T., Dzhydzhora R., Manziy O., Andreichuk S. The process of shells formation by electric arc spraying method and optimization by the criterion of their geometric shape accuracy. Scientific Journal of TNTU, 2021, vol. 104, no. 4, рр. 24–32.
3. Palamar M., Chaikovskyi A., Pasternak V., Shevchuk V., Yavorska M. The Influence of Antenna Installation Accuracy on Quality of Signal Reception. Proceedings of the 5th IEEE International Symposium on Wireless Systems within the International Conferences on Intelligent Data Acquisition and Advanced Computing Systems (IDAACS-SWS): September 17-18, 2020, Dortmund, Germany, рр. 209–212.
4. Dubynyak T., Nevozhai V., Remez A., Poshyvak M., Mykulyk P. Formation of reflective shells by electric arc spraying and application of composite material to the punch. Scientific Journal of TNTU, 2024, vol. 114, no. 2, рр. 119–134.
5. Harrington R. F. Time-Harmonic Electromagnetic Fields. IEEE Press Series on Electromagnetic Wave Theory. John Wiley & Sons, Inc, 2003, 480 p.
6. Balanis C. A. Antenna Theory: Analysis and Design. 4th Edition. John Wiley & Sons, Inc, 2016, 1104 p.
7. Kraus J. D., Marhefka R. J., Khan A. S. Antennas and Wave Propagation. 4th Edition. McGraw-Hill Education, 2001, 928 p.
8. Stutzman W. L., Thiele G. A. Antenna Theory and Design. 3rd Edition. John Wiley & Sons, Inc, 2012, 848 p.
9. Silver S. Microwave Antenna Theory and Design. IEEE Press, 1984, 624 p.
10. Volakis J. L., Chen C.-C., Fujimoto K. Small Antennas: Miniaturization Techniques & Applications. McGraw-Hill Education, 2010, 464 p.
11. Pozar D. M. Microwave Engineering. 4th Edition. John Wiley & Sons, Inc, 2011, 736 p.
12. Hansen R. C. Phased Array Antennas. John Wiley & Sons, Inc, 1998, 504 p.
13. Mailloux R. J. Phased Array Antenna Handbook. 3rd Edition. Artech House, 2017, 500 p.
14. Thiele G. A., Detweiler P. L., Sainati R. A. Antenna Design Using Personal Computers. Artech House, 1996, 324 p.
15. James J. R., Hall P. S. Handbook of Microstrip Antennas. Peter Peregrinus Ltd, 1989, 1596 p.
16. Richards M. A., Scheer J. A., Holm W. A. Principles of Modern Radar: Basic Principles. SciTech Publishing, 2010, 860 p.
17. Skolnik M. I. Radar Handbook. 3rd Edition. McGraw-Hill Education, 2008, 1328 p.
18. Ludvigsson M., Persson M. Antenna Modeling and Design: Using HFSS. CreateSpace Independent Publishing Platform, 2013, 244 p.
19. Rajasekaran T., & Sundararajan G. Arc Spraying: A Comprehensive Guide to Surface Engineering Techniques. Springer, 2017.
20. Pawlowski L. The Science and Engineering of Thermal Spray Coatings. John Wiley & Sons, 2008.
21. Davis J. R. Handbook of Thermal Spray Technology. ASM International, 2004.
22. Zienkiewicz O., Teylor R., The Finite Element Method for Solid and Structural Mechanics, Elsevier, New York, 2005. |
References: |
1. Yavorska M. I., Dubyniak T. S., Manziy O. S., Andreichuk S. K. Study of the process and problems arising during the formation of shells by the method of electric arc spraying. MMMTES (Tern., November 22–23, 2022), pp. 85–87 [In Ukrainian].
2. Dubynyak T., Dzhydzhora R., Manziy O., Andreichuk S. The process of shells formation by electric arc spraying method and optimization by the criterion of their geometric shape accuracy. Scientific Journal of TNTU, 2021, vol. 104, no. 4, рр. 24–32.
3. Palamar M., Chaikovskyi A., Pasternak V., Shevchuk V., Yavorska M. The Influence of Antenna Installation Accuracy on Quality of Signal Reception. Proceedings of the 5th IEEE International Symposium on Wireless Systems within the International Conferences on Intelligent Data Acquisition and Advanced Computing Systems (IDAACS-SWS): September 17-18, 2020, Dortmund, Germany, рр. 209–212.
4. Dubynyak T., Nevozhai V., Remez A., Poshyvak M., Mykulyk P. Formation of reflective shells by electric arc spraying and application of composite material to the punch. Scientific Journal of TNTU, 2024, vol. 114, no. 2, рр. 119–134.
5. Harrington R. F. Time-Harmonic Electromagnetic Fields. IEEE Press Series on Electromagnetic Wave Theory. John Wiley & Sons, Inc, 2003, 480 p.
6. Balanis C. A. Antenna Theory: Analysis and Design. 4th Edition. John Wiley & Sons, Inc, 2016, 1104 p.
7. Kraus J. D., Marhefka R. J., Khan A. S. Antennas and Wave Propagation. 4th Edition. McGraw-Hill Education, 2001, 928 p.
8. Stutzman W. L., Thiele G. A. Antenna Theory and Design. 3rd Edition. John Wiley & Sons, Inc, 2012, 848 p.
9. Silver S. Microwave Antenna Theory and Design. IEEE Press, 1984, 624 p.
10. Volakis J. L., Chen C.-C., Fujimoto K. Small Antennas: Miniaturization Techniques & Applications. McGraw-Hill Education, 2010, 464 p.
11. Pozar D. M. Microwave Engineering. 4th Edition. John Wiley & Sons, Inc, 2011, 736 p.
12. Hansen R. C. Phased Array Antennas. John Wiley & Sons, Inc, 1998, 504 p.
13. Mailloux R. J. Phased Array Antenna Handbook. 3rd Edition. Artech House, 2017, 500 p.
14. Thiele G. A., Detweiler P. L., Sainati R. A. Antenna Design Using Personal Computers. Artech House, 1996, 324 p.
15. James J. R., Hall P. S. Handbook of Microstrip Antennas. Peter Peregrinus Ltd, 1989, 1596 p.
16. Richards M. A., Scheer J. A., Holm W. A. Principles of Modern Radar: Basic Principles. SciTech Publishing, 2010, 860 p.
17. Skolnik M. I. Radar Handbook. 3rd Edition. McGraw-Hill Education, 2008, 1328 p.
18. Ludvigsson M., Persson M. Antenna Modeling and Design: Using HFSS. CreateSpace Independent Publishing Platform, 2013, 244 p.
19. Rajasekaran T., & Sundararajan G. Arc Spraying: A Comprehensive Guide to Surface Engineering Techniques. Springer, 2017.
20. Pawlowski L. The Science and Engineering of Thermal Spray Coatings. John Wiley & Sons, 2008.
21. Davis J. R. Handbook of Thermal Spray Technology. ASM International, 2004.
22. Zienkiewicz O., Teylor R., The Finite Element Method for Solid and Structural Mechanics, Elsevier, New York, 2005. |
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