Lysiy M., Biliuk A., Slobodianyk A. Impact of thermo-cycling treatment on sub-structural reinforcement of composition materials of aluminum matrix.

  • М.В. Лисий
  • А.І. Білюк
  • А.Д. Слободяник

Abstract

The possibilities are revealed to ensure the high–strength state of composite materials based on aluminium and its alloys armoured with boron fibres by forming substructure in a matrix and its stabilizing with impurity atoms, complexes of such atoms, and disperse phases. Optimal modes of thermocycling in a stressed state are proposed that provide the formation of substructure Key words: sub - structural reinforcement, composite materials, internal fricnion, dislocations, thermocycling.

References

1. Darynskyi V. M. Internal friction, caused by the motion of dislocation walls. Darynskyi V. M., Fe-dorov Yu. A./ FMM. 1970. Т. 30. Issue. 6. P. 1279 – 1286.
2. Zuziak P. M. Control of dislocation structure of the material, by the method of regressive analysis. Zuziak P. M., Biliuk A. I., Fedorchuk I. I. Materials of the 7-th Russian scientific – engineering conference”Demping materials’. Kirov. 1994. P. 142.
3. Fediukin V. K. Thermocycling processing of pieces and machines. Fediukin V.K., Smagorinskyi M.E. Leningrad. Machine building,1989. 255 p.
4. Lysuyi M. V. Substructural strengthening of fiber composite materials. Lysuyi M. V., Zuziak P. M., Chernukha Yu. O., Saichuk V. M. Metallophysics and modern technologies, 2003. №3. P. 279 – 285.
5. Lysuyi M. V. Formation of reinforcing substructure in composite materials on the base of aluminium. Lysuyi M. V., Mozgovyi O. V., Biliuk A. I. Bulletin of VPI-VNTU. 2012. №3. P. 148 – 153.
Published
2017-03-15
How to Cite
Лисий, М., Білюк, А., & Слободяник, А. (2017). Lysiy M., Biliuk A., Slobodianyk A. Impact of thermo-cycling treatment on sub-structural reinforcement of composition materials of aluminum matrix. Problems of Tribology, 83(1), 63-67. Retrieved from http://tribology.khnu.km.ua/index.php/ProbTrib/article/view/581
Section
Articles