References. 2. Synopsis 2025

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Category: SU-02-RF-25-ENG
  1. N. Shtyrov Physical Macrohardness of the Kinetic Indentation of the Material: Function and Universal Unit of Measure (Part 1) Volume 13, Number 3, 2023 of JMEA. 64-78
  2. N. Shtyrov Physical Properties of the Function and Number of Empirical Macrohardness of the Material: Universal Physical Unit of Measurement of Macro Hardness (Part 2) Volume 13, Number 3, 2023 of JMEA.  79-91
  3. N. Shtyrov Physical hardness of kinetic macroindentation of materials, theory and methods of determination, relationship with standard hardness. Application prospects. SCIREA Journal of Physic . V 8, Issue 5, 2023, p.524-561.
  4. Shtyrov N.. Fizicheskaya teoriya prochnosti. Monografiya Gl.7 . Metodyi opredeleniya fizicheskih strukturno-energeticheskih molyarnyih parametrov konstruktsionnyih materialov. //energydurability.com, 2020.
  5. N. Shtyrov . Deformirovanie i razrushenie tverdyih tel s pozitsiy kineticheskoy strukturno-energeticheskoy torii prochnosti. // MehanIka ruynuvannya materIalIv I mItsnIst konstruktsIy. ZbIrnik naukovih prats 5-Yi MIzhnarodnoYi konferentsIYi pId. zag. red. V.V. Panasyuka. 2014, LvIv. FMI, UkraYina, s 63-70.
  6. N. Shtyrov Deformirovanie i razrushenie tverdyih tel pri nestatsionarnyih nagruzkah s pozitsiy kineticheskoy strukturno-energeticheskoy teorii prochnosti. «Vibratsii v tehnike i tehnologiyah» IPP im. G.S. Pisarenko NAN Ukrainyi, Kiev, 1(77) 2015g, s.55-61.
  7. N. Shtyrov Theoretical assessment of the mechanical characteristics of the strength of steel using the dependencies and parameters of the physical theory of a deformed solid. 7. 2019. //energydurability.com
  8. N. Shtyrov Physical Methods and Parameters for Assessing the Strength, Fatigue, Durability and Damage to a Structural Material. Journal of Mechanics Engineering and Automation. № 9 (2019) , 84-91
  9. V. Kharchenko, N. Rudnitsky, O. Katok, A. Negovskiy, A. Drozdov, V. Kutnyak. Installation for determination of mechanical characteristics of structural materials by the instrumented indentation method. NDMS, 28, 2007. pp. 140-147.
  10. ISO 14577-1:2015 Metallic materials. Instrumented indentation test for hardness and materials parameters. Part 1: Test method.
  11. N. Shtyrov Physical Methods and Parameters for Assessing the Strength, Fatigue, Durability and Damage to a Structural Material. Journal of Mechanics Engineering and Automation. № 9 (2019) , 84-91.
  12. S.N. Zhurkov Kineticheskaya kontseptsiya prochnosti tverdyih tel / S.N. Zhurkov Vestnik // AN SSSR № 3 1968g.s.46-52.
  13. S.N. Zhurkov, T.P. Sanfirova Temperaturno-vremennaya zavisimost prochnosti chistyih metallov / Dokladyi AN SSSR. 1955g. 2. 101. s.237-240
  14. O. Katok, M. Rudnytskyi, V. Kharchenko, Determination of brinell hardness using instrumented indentation technique. ISP NASU, Kyiv , Herald KhNADU, 54, 2011, p.23-26
  15. V.I.Moschenok Sovremennyie metodyi opredeleniya tvYordosti. LAP Lambert. 2019. - 382s.
  16. F. Crace Calvert, Richard Johnson. On the hardness of metals and alloys. JFI, volume 67, issue 3, march 1859, pajes198-203.
  17. Kharchenko V. V., Rudnitsky N. P., Katok O. A., Negovskiy A. N., Drozdov A. V., Kutnyak V. V. Installation for determining mechanical characteristics of structural materials by the instrumented indentation method // Reliability and durability of machines and structures. - 2007. - Issue. 28. - P. 140 - 147.
  18. Kuksenko B.V. On the concepts of force and work in classical mechanics. Moscow State University Bulletin. Series 1: Mathematics, mechanics, 2001, No. 5, (28-31).