Development of Composite Materials (Ni-AL, Ti-AL) Using Cluster Models

  • А.М. Казначеева Sarsen Amanzholov East Kazakhstan State University (Ust-Kamenogorsk, Kazakhstan) Email: chi-ka-chy@mail.ru
  • С.Ю. Шелепова Sarsen Amanzholov East Kazakhstan State University (Ust-Kamenogorsk, Kazakhstan) Email: lana.shelepova.97@mail.ru
  • А.В. Джес Sarsen Amanzholov East Kazakhstan State University (Ust-Kamenogorsk, Kazakhstan) Email: alexjess@mail.ru
  • Р.Б. Абылкалыкова Sarsen Amanzholov East Kazakhstan State University (Ust-Kamenogorsk, Kazakhstan) Email: rabylkalykova@mail.ru
  • Л.И. Квеглис Siberian Federal University (Krasnoyarsk, Russia) Email: kveglis@list.ru
DOI_disc_logo https://doi.org/10.14258/izvasu(2019)1-03
Keywords: Ni3Al superalloy, Ti-Al nanocomposites, structural and phase transformations, cluster models

Abstract

  This work is devoted to obtaining samples of composite materials of Ni-Al, Al-Ti systems using mechanochemical processes. The Ni-Al multilayer powder composite is obtained by the 13MPA pressure welding method of a multilayer plate pack. The results of phase analysis demonstrate that the pressure welding method allows to obtain the Ni3Al phase having unique physical properties. The Ti-Al composite is an excellent structural material obtained by explosion welding. Titanium has an HCP lattice that is stable up to a temperature of 882°С; it passes into a stable BCC lattice at a higher temperature. The sample has been subjected to heat treatment - two-stage annealing. The Ti2Al and Ti3Al phases with BCC lattices are detected after the annealing so that this material can work in a wide range of temperatures. TiAl2 - has good properties at low temperatures, TiAl3 - has good properties at high temperatures. All processes of phase transitions follow the principle of maximum entropy production. As a result, the entropy of the obtained structures may be negative. This is possible due to the switching of chemical bonds in the process of mechanochemical reactions. The product volume of the mechanochemical reaction is always less than the initial volume. In this paper, we propose cluster models of powder sintering areas. Cluster models describe well the sequence of reactions in the area of mechanical sintering of powders. According to the obtained results, the conditions for developing a technology for producing powder and multilayer composites to create a Ni3Al superalloy, as well as to obtain strong and ductile multilayer Ti-Al composites, are defined.

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Author Biographies

А.М. Казначеева, Sarsen Amanzholov East Kazakhstan State University (Ust-Kamenogorsk, Kazakhstan)
магистрант факультета естественных наук и технологий  
С.Ю. Шелепова, Sarsen Amanzholov East Kazakhstan State University (Ust-Kamenogorsk, Kazakhstan)

студентка факультета естественных наук и технологий

А.В. Джес, Sarsen Amanzholov East Kazakhstan State University (Ust-Kamenogorsk, Kazakhstan)

кандидат технических наук, инженер-лаборант

Р.Б. Абылкалыкова, Sarsen Amanzholov East Kazakhstan State University (Ust-Kamenogorsk, Kazakhstan)
кандидат физико-математических наук, доцент кафедры физики и технологий  
Л.И. Квеглис, Siberian Federal University (Krasnoyarsk, Russia)

доктор физико-математических наук, профессор кафедры физики и технологий

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Published
2019-03-06
How to Cite
Казначеева А., Шелепова С., Джес А., Абылкалыкова Р., Квеглис Л. Development of Composite Materials (Ni-AL, Ti-AL) Using Cluster Models // Izvestiya of Altai State University, 2019, № 1(105). P. 28-33 DOI: 10.14258/izvasu(2019)1-03. URL: http://izvestiya.asu.ru/article/view/%282019%291-03.
Issue
No 1(105) (2019): Izvestiya of Altai State University
Section
Физика

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