Issue №: 1 (108)
The journal deals with the problems of vibration technologies and machines, mathematical methods of vibration process studies, information on design and technological development, presents teaching and methodological aspects of teaching in the Higher School of Applied Sciences, where vibration machines and technologies are studied.
MODELING AND IMPROVEMENT OF ANISOTROPIC STRENGTHENING OF ORTHOTROPIC CRYSTALLINE MATERIALS
Zalizniak Roman Oleksandrovych – graduate student of the Department "Machinery and Equipment of Agricultural Production" of Vinnytsia National Agrarian University (3 Sonyachna Street, Vinnytsia, Ukraine, 21008, е mail:).
Sheet material subject to stamping, as a rule, has an anisotropy of mechanical properties due to the brand of the material and the technological modes of its production. The anisotropy of the mechanical properties of the workpiece material can have both a positive and a negative effect on the steady course of technological processes of pressure metal processing. In the processes of plastic deformation, the initial anisotropy of the mechanical properties changes and depends on the processing modes.
When analyzing the technological processes of processing anisotropic metals by pressure, the initial anisotropy of the mechanical properties is mainly taken into account. Accounting for the influence of the initial anisotropy is carried out within the framework of an ideal plastic or isotropic body that is being strengthened. However, these assumptions do not allow us to estimate the change in anisotropy of mechanical properties during plastic processing.
Most of the existing theories of anisotropic strengthening of an initially isotropic and anisotropic body are based on isotropic expansion and movement of the load surface in the stress space and differ from each other in the approaches to describing the movement of the center of the load surface, which can be specified in the form of finite and differential relations. They are designed for small elastoplastic deformations.
The article gives the main ratios that must be used in the analysis of cold stamping processes of orthotropic anisotropically strengthening materials and proposes mathematical models of anisotropic strengthening of orthotropic crystalline materials. The deformation intensity value and components of the strain tensor in the main axes of anisotropy are used as strengthening parameters, and the accumulated amount of damage is also taken into account.
1. Valiev R. Z. (2013). A nanostructural design to produce high-strength Al alloys with enhanced electrical conductivity. Scripta Materialia. Vol. 76. P. 13–16.
2. Polmear I.J. (1995). Light Alloys—Metallurgy of the Light Metals; Arnold: London. Vol. 1021. P. 22–35.
3. Abdo H.S., Khalil K.A., El-Rayes M.M., Marzouk W.W., Hashem A.M., Abdel-Jaber G.T. (2020). Ceramic nanofibers versus carbon nanofibers as a reinforcement for magnesium metal matrix to improve the mechanical properties. J. King Saud Univ. Eng. Sci. Vol. 32. P. 346–350.
4. Sivak R. I. (2017). Assessment of metal plasticity and study of the mechanics of pressure treatment processes under complex loading. East European Journal of Entrepreneurial Technologies. Kharkiv. № 6/7 (90). P. 34-41.
5. Meshchanov G.I., Peshkov I.B. (2010). Innovative approaches in domestic cable engineering. Electr. Eng. Vol. 81. P. 1–8.
6. Telesshov V.V., Andreev D.A., Golovleva A.P. (2006). Effect of chemical composition on the strength of alloy of the Al-Cu-Mg-Ag system after heating at 180–210 ◦C. Met. Sci. Heat Treat. Vol. 48. P. 104–112.
7. Hany S. A., Asiful H. S., Jabair A.M., Mahmoud S.S. (2021). Alloying Elements Effects on Electrical Conductivity and Mechanical Properties of Newly Fabricated Al Based Alloys Produced by Conventional Casting Process. Materials. Vol. 14. P. 3971.
8. Almotairy S.M., Alharthi N.H., Alharbi H.F., Abdo H.S. (2020). Superior Mechanical Performance of Inductively Sintered Al/SiC Nanocomposites Processed by Novel Milling Route. Sci. Rep. Vol. 10. P. 10368.
9. Fouly A., Almotairy S.M., Aijaz M.O., Alharbi H.F., Abdo H.S. (2021). Balanced Mechanical and Tribological Performance of High- Frequency-Sintered Al-SiC Achieved via Innovative Milling Route—Experimental and Theoretical Study. Crystals. Vol. 11. P. 700.
10. Veselovska N., Shargorodsky S., Rutkevych V., Iskovych- Lototsky R. Investigation of the process of thread extrusion using the ultrasound. Eastern-European Journal of Enterprise Technologies. 2017. № 6/1 (90). Р. 60-68. DOI: 10.15587/1729-4061.2017114561 (Scopus / Web of Science).
11. Iskovych-Lototsky R.D., Ivanchuk Y.V., Veselovska N.R., Surtel W., Sundetov S. Automatic system for modeling vibro-impact unloading bulk cargo on vehicles (Conference Paper). Proceedings of SPIE - The International Society for Optical Engineering. 2018. Vol.10808. P. 1-10 (Scopus/ Web of Science).
12. Matviychuk V., Veselovska N., Shargorodsky S. Mathematical modeling of the latest technological systems: monograph. Vinnytsia: VNAU. 2021. P. 193.
About journal
The journal "Vibrations in engineering and technology" presents materials on the following issues
• Theory of processes and machines
• Mechanical Engineering and materialprocessing
• Processing and food production
The journal "Vibrations in Engineering and Technologies" is included in the list of technical scientific publications of Ukraine
(Category "B", Order of the Ministry of Education and Science of Ukraine dated July 2, 2020 No. 886)
Old version of the site: http://vibrojournal.vsau.edu.ua/
The journal "Vibrations in Engineering and Technology" is indexed by the following databases and catalogs:
The certificateof massmedia State registration:kv no 16643-5115 from 30.04.2010 .
Founder of the journal: Vinnytsia National Agrarian University
Kind of publication: journal
Type of publication : Scientific
Publication status: Domestic
Year of founding:
Periodicity: 4 times a year
Extent: 18.75 nominal printed pages
ISSN: 2306-8744 (printed version), (online)
Language of edition : (mixed languages) Ukrainian, English
The scope of the distribution and the category of readers: national, foreign, teaching staff, scientists, businessmen.
Periodical is included in the list of scientific professional editions of Ukraine approved by the Order of Ministry of Education and Sciences of Ukraine from 21.12.2015 No. 1328.
The journal "Vibrations in engineering and technology" is included in the "Catalogue of periodicals of Ukraine".
Journal subscription can be executed in each post office department.
Subscription Index is 99720.
Old version of site: http://vibrojournal.vsau.edu.ua/
In June 1994 the 2nd International Scientific and Technical Conference "Application of vibrations for technological purposes" was organized on the basis of Vinnytsia State Agricultural Institute. Leading experts in this field, noting the significant contribution to the school of Vibration Engineering under the leadership of P. S. Bernyk, proposed to create a professional all-Ukrainian scientific and technical journal "Vibration in engineering and technology..The journal was foundedat Vinnytsia State Agricultural Institute and P.S. Bernyk was elected to be the chief editor .
For all these years (since 1994) theJournal "vibration in engineering and technology" published 94 issues wherestudy of vibration effects, the creation of progressive energy saving technologies and equipment for their implementation were highlighted.
Currently Kaletnik H.M PhD , professor, academician NAAS is the chief editor of the "Vibrations in engineering and Technology"
The journal "Vibration in Engineering and technology", which has no analogues on the territory of Ukraine, is well known abroad.
