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Strain Fields And Crystallographic Characteristics Of Interstitial Dislocation Loops of Various Geometry In BCC Iron

Journal Article · · AIP Conference Proceedings
DOI:https://doi.org/10.1063/1.2918098· OSTI ID:21137054
;  [1];  [2]
  1. A.A. Bochvar Institute of Inorganic Materials, P.O. Box 369, Moscow, 123060 (Russian Federation)
  2. A.I. Leipunsky Institute of Physics and Power Engineering, Bondarenko sq. 1, Obninsk, 249033 (Russian Federation)
+ Show Author Affiliations
The formation energy, the relaxation volume, the dipole-force tensor, the self strain tensor and strain fields of interstitial dislocation loops in bcc iron (clusters of self interstitial atoms) have been calculated by molecular statics. Hexagonal and square dislocation loops of different types with different Burgers vectors, directions of dislocation segments and habit planes containing up to {approx}2500 self-interstitials have been considered. Analytical expressions describing size dependence of the formation energy, the relaxation volume and the self strain tensor for the loops stated have been obtained. The most energetically favorable loops are hexagonal loops with Burgers vector a/2<111> and habit plane {l_brace}11x{r_brace}, where x takes values in the range from 0 to 1 depending on the loop size. The formation energy of a<100> loops with <100> and <110> dislocation segments is {approx}14% and 23% greater than that of hexagonal a/2<111> loops at N>500, respectively. The analysis of the formation energies of a/2<111> and a<100> loops demonstrated that the nucleation of an a<100> loop by joining of two a/2<111> loops is possible when the total number of constituent self-interstitials in these loops is larger than 13.
OSTI ID:
21137054
Journal Information:
AIP Conference Proceedings, Journal Name: AIP Conference Proceedings Journal Issue: 1 Vol. 999; ISSN 0094-243X; ISSN APCPCS
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
ATOMS
BCC LATTICES
BURGERS VECTOR
DISLOCATIONS
FORMATION HEAT
HABIT PLANES
INTERSTITIALS
IRON
NUCLEATION
RADIATION EFFECTS
RELAXATION
STRAINS
TENSORS