Study of Mn4Si7 Silicide Alloys Produced Under Different Conditions Using an X-ray Diffractometer

Authors

  • B.D. Igamov
  • A.I. Kamardin
  • D.Kh. Nabiev
  • G.T. Imanova
  • I.R. Bekpulatov
  • I.Kh. Turapov
  • N.E. Norbutaev

DOI:

https://doi.org/10.31489/2025ph2/27-34

Keywords:

diffusion, crystallization,, nonstoichiometric,, dislocation density, lattice tension, amorphous, agglomeration

Abstract

Mn4Si7 silicide crystals obtained by hot isostatic pressing (HIP) and diffusion methods were studied. As a result
of the research, 11 peaks were identified in the Mn4Si7 crystal obtained by the HIP method, and 14 peaks
in the Mn4Si7 crystal obtained by the diffusion method. The crystal size of Mn4Si7 silicide (DHIP) was established
from 8.8∙10–9 m to 3.6∙10–8 m, (DDiff) from 6.2∙10–10 m to 9.1∙10–8 m. It has been established that the
lattice tension between the atoms of the Mn4Si7 silicide crystal (εHIP) varies from 0.01 to 0.41, (εDiff) from
0.31 to 3.71. The dislocation density on the crystal surface (δHIP) turned out to be from 3.5∙1010 to 3.2∙1012,
(δDiff) from 1∙1011 to 3.2∙1014. The degree of crystallization of Mn4Si7 silicide obtained by the (HIP) method is
7.02 %, the degree of amorphy is 92.98 %. It has been established that the Mn4Si7 silicide obtained by the diffusion
method has a degree of crystallization of 9.3 % and a degree of amorphism of 90.7 %. (COD-1530134)
(d). It has been established that the degree of crystallization of high-manganese silicide Mn4Si7 is low, and the
degree of amorphy is high due to the fact that Mn and Si are bound in a non-stoichiometric state.

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Published

2025-06-18

Issue

Section

PHYSICS OF THE CONDENSED MATTER

Received

2025-06-18