Materials Science. Non-Equilibrium Phase Transformations.
Vol. 7 (2021), Issue 2, pg(s) 70-78

Knowledge for material science. Part II

  • 1 Bulgarian Academy of Science, Sofia, Bulgaria

Abstract

This article discusses the modern knowledge necessary for materials science. Modern scientific knowledge covers on the basis of the greatest scientific results; complete scientific knowledge: mathematics; mathematical physics; quantum mechanics (not relativistic and relativistic); quantum physics; quantum chemistry. Theory and modern tools for testing and monitoring with increasing resolution. High technologies. A research – type methodology has been obtained, but this methodology is also focused on interactions with business. Business research is not fundamental, but it can be very lengthy

Keywords

References

  1. S. Bushev, V. Georgiev, Developing the solution of Stefan’s Problem, Comptes rendus de l’Academie bulger des Science, 47, No 3, 1994, 9-12.
  2. S. J. Clark, M. D. Segall, C. J. Pickard, P. J. Hasnip, M. I. J. Probert, K. Refson, M. C. Payne, First principles methods using CASTEP, Z. Kristallogr. 220 (2005) 567-570.
  3. Ch. Wert, R. Thomson, Physics of Solids, Peace, Moscow (1969). (In Russian)
  4. Ch. Kittel, Introduction to Solid State Physics, Fourth Edition, John Wiley and Sons, Inc., Science, Moscow, 1978. (In Rusian)
  5. en.wikipedia.org › wiki › CASTEP and CASTEP www.castep.org ;
  6. Enrico Fermi, Thermodynamics, Prentice-Hall, New York, 1937, second stereotype edition, Publishing House of Kharkov University, 1973. (In Russian)
  7. A. Maneva, Thesis of PhD: Study of the structure and properties of castings of aluminum alloys depending on the ratio between primary and secondary alloys, BAS, IMSETCHA, Sofia, 2013. (In Bulgarian)
  8. A. Balevski, Metal science, Technics, Sofia, 1962. (In Bulgarian)
  9. M. Flemings, Solidification processing, Peace, Moscow, 1977. (In Russian)
  10. G. Schulze, Metal physics, Peace, Moscow, 1971.
  11. M. Borisov, K. Marinova, Introduction to Solid State Physics Part One, Science and Art, Sofia, 1977. (In Bulgarian)
  12. A. Polikarov, Methodology of scientific knowledge, Science and Art, Sofia, 1972.
  13. B Crowell, Simpel Nature An introduction to Physics for Engineering and Physical Science Students, www.lightandmatter.com
  14. N. V. Vitanov, www.course.quantum-bg.org/
  15. J., Ismael, "Quantum Mechanics", The Stanford Encyclopedia of Philosophy (Winter 2020 Edition), Edward N. Zalta (ed.), forthcoming URL = https://plato.stanford.edu/archives/win2020/entries/qm
  16. E. H. Hristov, Notes Mathematical models in physics, Sofia, 2003. http://www.store.fmi.uni-sofia.bg/fmi/companal/hristov mmfa
  17. L. Litov, Quantum physics, https://www.atomic.phys.uni-sofia.bg/lectures; and L. Litov, The Higgs boson or how the mass is born? 2014, https://www.uni-sofia.bg/print/view/full
  18. https://www.bg.wikipedia/org/wiki/физика https://www.bg.wikipedia/org/wiki/елементарна_частица https://www.bg.wikipedia/org/wiki/адрон
  19. https://bg.wikipedia.org/wiki/Стандартен_модел
  20. Leon van Dommelen, Quantum Mechanics for Engineers, https://www.umich.edu/~ners312/courselibrary/dommelen
  21. A. Einstein, Relativity: the special and general theory, Henry Holt and Company, New York, 1920.
  22. J. Stefan. ¨Uber die verdampfung und die aufl¨osung als vorgūange der diffusion. Annalen der Physik und Chemie, 277(12):725–747, 1890.
  23. C. Schwarz, Arch. Für Eisenhüttwesen, H. 3, p. 139- 148, Sept 1931.O.B.M.
  24. . J. C. Baez, M. Stay, Physics, Topology, Logic and Computation: A Rosetta Stone, arXiv:0903.0340v3 [quant-ph] 6 Jun 2009 (not that 0903.4540-1)
  25. K. Svozil, Mathematical methods of theoretical physics, Sixth Edition, February 2019. arXiv:1203.4558v8 [math-ph] 1 Feb 2019 (not that 1508.0358-1)
  26. M. Lein, Differential Equations in Mathematical Physics, university of Toronto. arXiv:1508.03834v1 [math-ph] 16 Aug. 2015 (not that 1508.03834-1)
  27. K. Reuter, C. Stampfl, M. Scheffler, Ab initio atomistic thermodynamics and statistical mechanics of surface properties and functions. arXiv: cond-mat/0404510v1 [cond-mat.mtrl-sci] 21 Apr 2004. not that 0404510v1)
  28. E. Scholz, The changing concept of matter in H. Weyl’s thought, 1918 – 1930. arXiv:math/0409576v1 [math.HO] 29 Sep 2004 (not that0409576v1_2004)
  29. R. E. Smallman, R. J. Bishop, Modern Physical Metallurgy and Materials Engineering, Butterworth-Heinemann, Oxford, 1999. ISBN 0 7506 4564 4
  30. V. I. Arnold, Mathematical methods of classical mechanics, Moscow, Science, 1979. (In Russian)
  31. B. L. Van Der Wander, Algebra, Moscow, Science, 1976. (In Russian)
  32. K. Suto, Derivation of a Relativistic Wave Equation more Profound than Dirac’s Relativistic Wave Equation, Applied Physics Research; Vol. 10, No. 6; 2018.
  33. H. Yukawa, PTP, 17, 48 1935
  34. G. Gremaud, The crystalline ether, third version of the <> book, revised and corrected, May 2021.
  35. H. Haken, QUNTENFELDTHEORIE DES FESTKÖRPERS, B. G. Teubner, Studgard, 1973. (In Russian)
  36. S. H. Simon, Lecture Notes for Solid State Physics, Oxford University, January 9, 2012.
  37. A. Neumaier, D. Westra, Classical and quantum mechanics, via Lie algebras, University of Vienna, April 14, 2011.
  38. D, Kashchiev, Nucleation, Butterworth-Heinemann, Oxford, 2000. ISBN 0 7505 4682 9
  39. I. V. Markov, Crystal Growth for Beginners: Fundamentals crystal growth and epitaxy, 2-nd edition, World Scientific Publishing Co. Pte. Ltd, 2003. ISBN 981-238-245-3
  40. S. Bushev, Theoretical model of structure formation in die casting, XXII International scientific technical conference “Foundry 2015”, 16-17.04.2015, Pleven, Bulgaria, y. XXIII, ISSUE 3 (166), April 2015. ISSN: 1310 – 3946

Article full text

Download PDF