Relation between structure of metallic materials and fracture properties under conditions of solid particle erosion

Research output

Abstract

The fraction of the ductile component of the fracture surface after solid particle erosion for different materials was
investigated. The minimum amount of viscous fracture on the fracture surface was observed in aluminum samples with the
FCC lattice and very high stacking fault energy, and the maximum was found in copper samples with the same FCC lattice
but small stacking fault energy. The percentage of viscous fracture in BCC steel samples is close in magnitude to titanium
alloy with HCP + BCC lattice and they occupy an intermediate position between copper and aluminum samples.
Original languageEnglish
Title of host publicationLoading and Environment effects on Structural Integrity
Subtitle of host publicationbook of abstracts
Place of PublicationBelgrade
Pages372
Publication statusPublished - 2018
Event22nd European Conference on Fracture - Belgrad
Duration: 26 Aug 201831 Aug 2018

Conference

Conference22nd European Conference on Fracture
Abbreviated titleECF22
CountrySerbia
CityBelgrad
Period26/08/1831/08/18

Fingerprint

erosion
stacking fault energy
body centered cubic lattices
aluminum
copper
solid surfaces
steels

Cite this

@inproceedings{d15290f0cf18422bb0ba4b9685e2a1da,
title = "Relation between structure of metallic materials and fracture properties under conditions of solid particle erosion",
abstract = "The fraction of the ductile component of the fracture surface after solid particle erosion for different materials wasinvestigated. The minimum amount of viscous fracture on the fracture surface was observed in aluminum samples with theFCC lattice and very high stacking fault energy, and the maximum was found in copper samples with the same FCC latticebut small stacking fault energy. The percentage of viscous fracture in BCC steel samples is close in magnitude to titaniumalloy with HCP + BCC lattice and they occupy an intermediate position between copper and aluminum samples.",
author = "S.A. Atroshenko and A.D. Evstifeev and Yu.V. Petrov",
year = "2018",
language = "English",
isbn = "9788690068609",
pages = "372",
booktitle = "Loading and Environment effects on Structural Integrity",

}

Atroshenko, SA, Evstifeev, AD & Petrov, YV 2018, Relation between structure of metallic materials and fracture properties under conditions of solid particle erosion. in Loading and Environment effects on Structural Integrity: book of abstracts. Belgrade, pp. 372, Belgrad, 26/08/18.

Relation between structure of metallic materials and fracture properties under conditions of solid particle erosion. / Atroshenko, S.A.; Evstifeev, A.D.; Petrov, Yu.V.

Loading and Environment effects on Structural Integrity: book of abstracts. Belgrade, 2018. p. 372.

Research output

TY - GEN

T1 - Relation between structure of metallic materials and fracture properties under conditions of solid particle erosion

AU - Atroshenko, S.A.

AU - Evstifeev, A.D.

AU - Petrov, Yu.V.

PY - 2018

Y1 - 2018

N2 - The fraction of the ductile component of the fracture surface after solid particle erosion for different materials wasinvestigated. The minimum amount of viscous fracture on the fracture surface was observed in aluminum samples with theFCC lattice and very high stacking fault energy, and the maximum was found in copper samples with the same FCC latticebut small stacking fault energy. The percentage of viscous fracture in BCC steel samples is close in magnitude to titaniumalloy with HCP + BCC lattice and they occupy an intermediate position between copper and aluminum samples.

AB - The fraction of the ductile component of the fracture surface after solid particle erosion for different materials wasinvestigated. The minimum amount of viscous fracture on the fracture surface was observed in aluminum samples with theFCC lattice and very high stacking fault energy, and the maximum was found in copper samples with the same FCC latticebut small stacking fault energy. The percentage of viscous fracture in BCC steel samples is close in magnitude to titaniumalloy with HCP + BCC lattice and they occupy an intermediate position between copper and aluminum samples.

M3 - Conference contribution

SN - 9788690068609

SP - 372

BT - Loading and Environment effects on Structural Integrity

CY - Belgrade

ER -

Atroshenko SA, Evstifeev AD, Petrov YV. Relation between structure of metallic materials and fracture properties under conditions of solid particle erosion. In Loading and Environment effects on Structural Integrity: book of abstracts. Belgrade. 2018. p. 372