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Special Aspects of the Production Technology for Multilayer Protective Materials Used in the Integrated Circuit Packages

  • Anatoly Belous
  • Vitali Saladukha
  • Siarhei Shvedau
Chapter

Abstract

The chapter is dedicated to the vital peculiarities of the fabrication technology of multilayer protective materials for the production of integrated circuit (IC) packages of the space and special application.

Keywords

Technology of magnetic shields 

References

  1. 1.
    A.I. Belous, V.I. Ovchinnikov, A.S. Turtsevich, Design Features of Microelectronic Devices for Spacecrafts (Gomel, 2014)Google Scholar
  2. 2.
    V.Y. Gul, Basics of Plastics Processing (Chemistry, Moscow, 1985), p. 148Google Scholar
  3. 3.
    I.D. Simonov-Yemelyanov, Fillers of Polymeric Materials (Dzerzhinsky Moscow House of Scientific and Technical Propaganda, Moscow, 1977), p. 19Google Scholar
  4. 4.
    I.D. Simonov-Yemelyanov et al., Fillers of Polymeric Materials (Dzerzhinsky Moscow House of Scientific and Technical Propaganda, Moscow, 1983), p. 147Google Scholar
  5. 5.
    S.V. Vlasov, L.B. Kandyrin, V.N. Kuleznev, et al., Basics of Plastics Processing Technology: Textbook for Higher Education Institutions (Publishing and Polygraphic Complex “IPK Chuvashia”, Cheboksary, 2004), p. 596Google Scholar
  6. 6.
    Y.K. Mashkov, Z.N. Ovchar, M.Y. Baibaritskaya, O.A. Mamayev, Polymer Composite Materials in Tribotechnology (Moscow, Nedra Business Center, LLC, 2004), p. 262Google Scholar
  7. 7.
    Fillers for Polymer Composites, Translated from English under the editorship of G.S. Kats, D.V. Milevsky (Chemistry, Moscow, 1981), p. 145Google Scholar
  8. 8.
    I.D. Simonov-Yemelyanov, V.N. Kuleznev, Basics of Creation of Composite Materials: A Textbook (Moscow Institute of Chemical Engineering, Moscow, 1986), p. 173Google Scholar
  9. 9.
    Y.P. Trykov, V.G. Shmorgun, L.M. Gurevich, Deformation of Layered Composites (Volgograd State Technical University, Volgograd, 2001), p. 242Google Scholar
  10. 10.
    A.A. Batayev, V.A. Batayev, Composite Materials: Structure, Production, Application: A Textbook (Publishing House of Novosibirsk State Technical University, Novosibirsk, 2002), p. 384Google Scholar
  11. 11.
    S.A. Chernyavsky, V.K. Pylnikov, A.N. Timofeyev, Theory and practice of production technologies for products made of composite materials and new metallic alloys. 21st Century. Third International Conference – M., 2002, pp. 145–151Google Scholar
  12. 12.
    I.P. Zhigun, V.A. Polyakov, Properties of Spatially-Reinforced Plastics (Zinatne, Riga, 1978), p. 215Google Scholar
  13. 13.
    S.V. Bukharov, Carbonized binders and carbon materials based on organometallic complexes. Construction of Composite Materials 1, 43–49 (2000)Google Scholar
  14. 14.
    Fillers for Polymeric Composite Materials: Reference book, Translated from English under the editorship of P.G. Babayevsky (Chemistry, Moscow, 1981), p. 736Google Scholar
  15. 15.
    A.K. Mikitayev, G.V. Kozlov, G.Y. Zaikov, Polymer Nanocomposites. Variety of Manifold Structural Forms and Applications (Nauka, Moscow, 2009), p. 278Google Scholar
  16. 16.
    V.I. Solomatov, Development of the Polystructural Theory of Composite Materials. Materials of the Jubilee Conference (Moscow State University of Railway Enginnering, Moscow, 2001), pp. 56–66Google Scholar
  17. 17.
    V.I. Ovchinnikov, V.T. Shmuradko, Device for surface-hardening of metal parts, Pat. No. 3847, Republic of Belarus; applicant — state scientific institute “Institute of Powder Metallurgy” — No. a20060817; application dated 1 December 2006; 12.06; registered in the state register of utility models on 2007.06.15Google Scholar
  18. 18.
    V.I. Ovchinnikov, V.T. Shmuradko, Device for surface-hardening of metal parts, Pat. No. 5393, Republic of Belarus; applicant — state scientific institute “Institute of Powder Metallurgy” — No. a20060817; application dated 1 December 2006; 12.06; registered in the state register of utility models on 2007.06.01Google Scholar
  19. 19.
    V.I. Ovchinnikov, A.F. Ilyushchenko, E.M. Shpilevsky, Multilayer composite materials with nanofillers, in Collection of Scentific Articles “Nanostructures in Condensed Environment”, ed. by P.A. Vityaz (Eds), (National Academy of Sciences of Belarus, Minsk, 2011). pp. 318–323Google Scholar
  20. 20.
    Y.N. Khandogina, D.N. Vladimirov, Shielding of Electromagnetic Waves, vol 6 (Confident, Moscow, 1999), pp. 35–39Google Scholar
  21. 21.
    S.K. Andilevko, Y.N. Sai, G.S. Romanov, S.M. Usherenko, Movement of the ram tester in metal. Phys. Combustion Explosion 5, 110–113 (1988)Google Scholar
  22. 22.
    A.I. Belous, V.I. Ovchinnikov, Ye A. Doroshkevich, T.V. Petlitskaya, A.N. Petlitsky, Current problems of protection of elements of microelectronics, working in extremal conditions, including space. Collection of papers of the 17th IRTC “Mechanical Engineering and Technosphere of the 21st century”, Donetsk National Technical UniversityDonetsk, Ukraine, 2010, pp. 254–258Google Scholar
  23. 23.
    V.I. Ovchinnikov, Area of new application of pulse methods of load with the high-speed stream of particles accelerated by the explosive accelerator, in Powder Metallurgy: Collection of Scientific Articles, ed. by P.A. Vityaz et al. (Eds), (National Academy of Sciences of Belarus, Minsk, 2009), pp. 94–98, Issue 32Google Scholar
  24. 24.
    V.I. Ovchinnikov, A.S. Kalinichenko, N.A. Shipitsa, A.I. Belous, T.V. Petlitskaya, et al., Physical basis of the material destruction process in the collision with the powder particle streams, in Powder Metallurgy: Collection of Scientific Articles, ed. by P.A. Vityaz et al. (Eds), (National Academy of Sciences of Belarus, Minsk, 2006), pp. 75–80, Issue 28Google Scholar
  25. 25.
    N.A. Shipitsa, S.M. Usherenko, V.I. Ovchinnikov, A.I. Belous, Study of the material destruction process during collision with streams of particles. Abstracts of reports at the 3rd International Scientific Conference “Rocket and Space Technology” AT-2007: Fundamental and applied problems, Moscow, 2007, pp. 34–37Google Scholar
  26. 26.
    V.I. Ovchinnikov, A.F Ilyushchenko, Study of the nature of interaction of the high-speed stream of microparticles with a barrier. Collection of materials of the 7th IRTC Modern Methods and Technologies of Creation and Processing of Materials. PTI of the National Academy of Sciences of Belarus, Minsk, 2012, Book 2, pp. 196–203Google Scholar
  27. 27.
    V.I. Ovchinnikov, Study of electromagnetic radiation in shock-wave loading with the high-speed stream of powder particles, in Powder Metallurgy: Collection of Scientific Articles, ed. by P.A. Vityaz et al. (Eds), (National Academy of Sciences of Belarus, Minsk, 2007), pp. 287–291, Issue 30Google Scholar
  28. 28.
    V.I. Ovchinnikov, A.F. Ilyushchenko, On effects arising in the process of super-deep penetration of microparticles into metals, in Powder Metallurgy: Collection of Scientific Articles, ed. by P.A. Vityaz et al. (Eds), (National Academy of Sciences of Belarus, Minsk, 2010), pp. 59–72, Issue 33Google Scholar
  29. 29.
    V.I. Ovchinnikov, Experimental study of electromagnetic radiation and magnetic fields induced in the conditions of shock loading, in Proceedings of the 7th IRTC “New Materials and Technologies: Powder Metallurgy, Composite Materials, Protective Coatings”, Minsk, 2006, pp. 41–46Google Scholar
  30. 30.
    V.I. Ovchinnikov, A.F Ilyushchenko, Nanostructuring of materials as a result of dynamic loading with the high-speed stream of microparticles in Proceedings of the 18th IRTC “Mechanical Engineering and Technosphere of the 21st century”, vol 2 Donetsk, 2011, pp. 278–282Google Scholar
  31. 31.
    V.I. Ovchinnikov, Ye I. Doroshkevich, V.T. Shmuradko, Device for measuring the induction of the alternating magnetic field induced by explosive metalworking. Patent No. 11572 Republic of Belarus; applicant — state scientific institute “Institute of Powder Metallurgy” — registered in the State Register on 2008.11.10Google Scholar
  32. 32.
    V.T. Shmuradko, V.I. Ovchinnikov, O.V. Roman, Method for pulse compression of powder materials. Patent No. 11651 Republic of Belarus; applicant — state scientific institute “Institute of Powder Metallurgy” — registered in the State Register on 2008.12.06Google Scholar
  33. 33.
    V.I. Ovchinnikov, V.T. Shmuradko, Device for explosive doping. Patent No. 7080 Republic of Belarus; applicant — state scientific institute “Institute of Powder Metallurgy”- No. u20100478 application as of 2010.05.20 for the utility model is registered in the State Register on 2010.12.02Google Scholar
  34. 34.
    V.I. Ovchinnikov, Y.A. Doroshkevich, A.I. Belous, A.N. Petlitsky, Registration of fast quasi-static and dynamic processes of electromagnetic radiation in conditions of explosive technologies, in Physics and Technology of High-Energy Processing of Materials: Collection of Scientific Articles, ed. by V.V. Sobolev et al. (Eds), (Art-Press, Dnepropetrovsk, 2009), pp. 136–147Google Scholar
  35. 35.
    V.I. Ovchinnikov, O.V. Roman A.I. Belous, Experimental study of electromagnetic fields under dynamic explosive loading, in Proceedings of the 8th International Symposium “Use of Explosive Energy to Produce Materials with New Properties”, Moscow, Russia, 2006, p. 94–95Google Scholar
  36. 36.
    V.I. Ovchinnikov, A.S. Kalinichenko, E.A. Doroshkevichl, O.V Roman, U.A. Kalinichenko, High-energy influences of substance’s flows on structural changes in materials, Selected, peer reviewed papers from International Conference on Multifunctional Materials and Structures, 28–31 July, Hong Kong, P.R. China 2008, Advanced Materials Research Vols. 47–50 (© 2008 Trans Tech Publications, Switzerland, 2008), pp. 1237–1240Google Scholar
  37. 37.
    A.I. Belous, V.I. Ovchinnikov, Ye A. Doroshkevich, O.P. Reut, T.V. Petlitskaya, A.N Petlitsky, Impact factors of high-speed collision of particle streams on changes in properties of materials and degradation of microelectronics components, Collection of papers at the 16th IRTC “Mechanical Engineering and Technosphere of the 21st century”, Donetsk National Technical University, Donetsk, Ukraine, 2009, pp. 86–90Google Scholar
  38. 38.
    V.I. Ovchinnikov, O.V. Roman, A.S. Kalinichenko, et al., Use of high-speed streams of powder particles and explosive energy in changing physical and mechanical properties of materials, in Proceedings of the 8th International Symposium (IS) “Use of Explosive Energy to Produce Materials with New Properties”, Moscow, Russia, 2006, pp. 96–97Google Scholar
  39. 39.
    V.I. Ovchinnikov, Amorphization mechanism of the microstructure of metals and alloys under dynamic processing with high-speed streams of particles, Collection of reports at the International Symposium “Surface Engineering. New Powder Composites. Welding”, Minsk, 25–27 March 2009, pp. 241–247Google Scholar
  40. 40.
    V.I. Ovchinnikov, A.I. Belous, Ye Ye. Petyushik, Ye A. Doroshkevich, Influence of pulsed high-energy impact of streams of microparticles on properties of materials and elements of microelectronics, Collection of reports at the 4th IRTC “Modern Methods and Technologies of Creation and Processing of Materials”, Minsk, 19–21 October 2009, pp. 231–237Google Scholar
  41. 41.
    V.I. Ovchinnikov, Ye A. Doroshkevich, O.V. Roman, A.S. Kalinichenko, O.P Reut, Study of the phase transition from the crystalline state to the amorphous state under dynamical treatment of steels with high-speed streams of microparticles, Collection of scientific papers of the 5th IRTC “Modern Methods and Technologies of Creation and Processing of Materials”, Minsk, 2010, pp. 181–186Google Scholar
  42. 42.
    A.I. Belous, VI. Ovchinnikov, L.D. Buiko, T.V Petlitskaya, Е.А. Doroshkevich, The interaction of particles of cosmic dust with space aircraft and their influence on the structural characteristics and properties of materials and elements of microelectronics, Materials of the Jubilee 15th Saint Petersburg International conference on integrated navigation systems, Saint-Petersburg, 2008, pp. 338–340Google Scholar
  43. 43.
    V.I. Ovchinnikov, A.F. Ilyushchenko, Study of factors affecting integrated circuits used in spacecraft at the collision of the high-speed stream of microparticles, Materials of reports at the International Symposium “Surface Engineering. New powder composites. Welding”, Minsk, 2011, Part 2, pp. 284–290Google Scholar
  44. 44.
    V.I. Ovchinnikov, Ye A. Doroshkevich, Mesomechanics of structure formation under shock-wave loading, Collection of reports at the International Conference “Mechanical Engineering”, Minsk, 2005, pp. 71–79, Issue 21Google Scholar
  45. 45.
    V.I. Ovchinnikov, V.T. Shmuradko, Ye A. Doroshkevich, Device for measuring the induction of the alternating magnetic field: Patent No. 9111, Republic of Belarus MPK7 C1 G01R33/07; applicant — state scientific institute “Institute of Powder Metallurgy” — No. a20031210; application as of December 10, 2003; registered in the State Register on 11 Jan 2007Google Scholar
  46. 46.
    V.I. Ovchinnikov, V.T. Shmuradko, Method of nondestructive testing of the explosive doping process; applicant — state scientific institute “Institute of Powder Metallurgy” — No. a20101497; application as of November 10, 2011Google Scholar
  47. 47.
    V.I. Ovchinnikov, A.F. Ilyushchenko, Device for registration of the process of penetration of microparticles into materials during explosive doping, applicant — state scientific institute “Institute of Powder Metallurgy” — No. u20120803; application as of 2012.09.07Google Scholar
  48. 48.
    V.I. Ovchinnikov, Ye A. Doroshkevich, S.M. Usherenko, A.S Kalinichenko, Measuring and computing complex for registration of quasi-static and dynamic processes of electromagnetic radiation, Bulletins of higher educational establishments and energy associations of the CIS. Energy, Publishing house of the Belarusian National Technical University, Minsk, 2007, p. 18Google Scholar
  49. 49.
    V.I. Ovchinnikov, Ye A. Doroshkevich, A.I. Belous, T.V. Petlitskaya, Study of affecting factors during analysis of failure causes of integrated circuits, after the specially modeled process and interaction with the high-speed stream of particles, in Proceedings of the 8th IRTC “New Materials and Technologies, Minsk, 2008, pp. 48–51Google Scholar
  50. 50.
    O.V. Roman, V.T. Shmuradko, V.I. Ovchinnikov, D.G. Tarasov, Determination of the wave configuration at the interface between two media during outbreak of random explosion, Collection of report materials at the IRTC Powder Metallurgy: Achievements and Challenges, Minsk, 2005, pp. 187–189Google Scholar
  51. 51.
    V.I. Ovchinnikov, A.S. Kalinichenko, Y.Y. Petyushik, Changes in the structure and properties of metal targets under dynamic loading with the high-speed stream of particles, in Powder Metallurgy: Collection of Scientific Articles, ed. by P.A. Vityaz et al. (Eds), (National Academy of Sciences of Belarus, Minsk, 2008), pp. 105–112, Issue 31Google Scholar
  52. 52.
    V.I. Ovchinnikov, A.F. Ilyushchenko, Y.A. Doroshkevich, A.I. Belous, A.N. Petlitsky, Creation of protection means against the impact of high-speed streams of microparticles on microelectronics components used in spacecraft, in Powder Metallurgy: Collection of Scientific Articles, ed. by P.A. Vityaz et al. (Eds), (National Academy of Sciences of Belarus, Minsk, 2011), pp. 60–67, Isuue 34Google Scholar
  53. 53.
    V.I. Ovchinnikov, Y.A. Doroshkevich, A.I. Belous, L.D. Buiko, T.V. Petlitskaya, Application of pulse methods of loading with the high-speed stream of particles for testing microelectronics components, in Powder Metallurgy: Collection of Scientific Articles, ed. by P.A. Vityaz et al. (Eds), (National Academy of Sciences of Belarus, Minsk, 2008), pp. 259–263, Issue 31Google Scholar
  54. 54.
    A.I. Belous, V.I. Ovchinnikov, L.D. Buiko, T.V. Petlitskaya, Е.А. Doroshkevich, Determination of damages in superdeep penetration and alteration of properties of materials under the extreme conditions, Selected, peer reviewed papers from International Conference on Multifunctional Materials and Structures, 28–31 July, Hong Kong, PR. China 2008, Advanced Materials Research, Vols. 47–50 (© 2008 Trans Tech Publications, Switzerland, 2008), pp. 1274–1277Google Scholar
  55. 55.
    V.I. Ovchinnikov, A.F. Ilyushchenko, Ye A. Doroshkevich, A.I. Belous, Multilayer composite material for the housing of integrated circuits, used in spacecraft, in Proceedings of the 5th Space Congress: in 2 volumes, Minsk, 2011, Vol. 1, pp. 76–81Google Scholar

Copyright information

© Springer Nature Switzerland AG 2019

Authors and Affiliations

  • Anatoly Belous
    • 1
  • Vitali Saladukha
    • 1
  • Siarhei Shvedau
    • 1
  1. 1.IntegralMinskBelarus

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