Structural anisotropy in equal-channel angular extruded nickel revealed by dilatometric study of excess volume

Jaromir Kotzurek; Wolfgang Sprengel; Maciej Krystian; Sanja Simic; Peter Pölt; Anton Hohenwarter; Reinhard Pippan; Roland Würschum

doi:10.3139/146.111463

Structural anisotropy in equal-channel angular extruded nickel revealed by dilatometric study of excess volume

Jaromir Kotzurek, Wolfgang Sprengel, Maciej Krystian, Sanja Simic, Peter Pölt, Anton Hohenwarter, Reinhard Pippan, Roland Würschum

Publikation: Beitrag in einer Fachzeitschrift › Artikel › Begutachtung

Abstract

Structural anisotropy and excess volume in ultra-finegrained high-purity nickel prepared by equal-channel angu-lar pressing (ECAP) is studied by means of dilatometry andcompared with the processing route of high-pressure tor-sion. Both routes exhibit qualitatively similar three-stagebehavior in length change upon defect annealing with acharacteristic dependence on the measuring direction re-lated to the deformation axes. Taking into account shapeanisotropy of the crystallites, the length change in variousdirections can be quantitatively analyzed yielding directaccess to the concentration of deformation-induced latticevacancies, the vacancy relaxation, and the grain boundaryexpansion. The routes A12 and BC12 of ECAP are com-pared.

Originalsprache	englisch
Seiten (von - bis)	81-88
Fachzeitschrift	International Journal of Materials Research
Jahrgang	108
DOIs	https://doi.org/10.3139/146.111463
Publikationsstatus	Veröffentlicht - 2017

Fields of Expertise

Advanced Materials Science

Zugriff auf Dokument

10.3139/146.111463Lizenz: CC BY 4.0

1 Abgeschlossen
2 Laufend

Defekte und Umwandlungen von Materialien
Klinser, G., Sprengel, W. & Würschum, R.
1/01/13 → …
Projekt: Arbeitsgebiet
Atomare Defekte in Metallen und Keramiken
Sprengel, W., Würschum, R., Klinser, G. & Resch, L.
1/01/12 → …
Projekt: Forschungsprojekt
FWF- Defekte und strukturelle Anisotropie in ultrafeinkristallinen Metallen
Kotzurek, J., Sprengel, W. & Würschum, R.
1/05/13 → 30/04/17
Projekt: Forschungsprojekt

Dieses zitieren

@article{56918eb2161142c9b48896c792705e57,

title = "Structural anisotropy in equal-channel angular extruded nickel revealed by dilatometric study of excess volume",

abstract = "Structural anisotropy and excess volume in ultra-finegrained high-purity nickel prepared by equal-channel angu-lar pressing (ECAP) is studied by means of dilatometry andcompared with the processing route of high-pressure tor-sion. Both routes exhibit qualitatively similar three-stagebehavior in length change upon defect annealing with acharacteristic dependence on the measuring direction re-lated to the deformation axes. Taking into account shapeanisotropy of the crystallites, the length change in variousdirections can be quantitatively analyzed yielding directaccess to the concentration of deformation-induced latticevacancies, the vacancy relaxation, and the grain boundaryexpansion. The routes A12 and BC12 of ECAP are com-pared.",

author = "Jaromir Kotzurek and Wolfgang Sprengel and Maciej Krystian and Sanja Simic and Peter P{\"o}lt and Anton Hohenwarter and Reinhard Pippan and Roland W{\"u}rschum",

year = "2017",

doi = "10.3139/146.111463",

language = "English",

volume = "108",

pages = "81--88",

journal = "International Journal of Materials Research ",

issn = "2195-8556",

publisher = "deGruyter",

}

TY - JOUR

T1 - Structural anisotropy in equal-channel angular extruded nickel revealed by dilatometric study of excess volume

AU - Kotzurek, Jaromir

AU - Sprengel, Wolfgang

AU - Krystian, Maciej

AU - Simic, Sanja

AU - Pölt, Peter

AU - Hohenwarter, Anton

AU - Pippan, Reinhard

AU - Würschum, Roland

PY - 2017

Y1 - 2017

N2 - Structural anisotropy and excess volume in ultra-finegrained high-purity nickel prepared by equal-channel angu-lar pressing (ECAP) is studied by means of dilatometry andcompared with the processing route of high-pressure tor-sion. Both routes exhibit qualitatively similar three-stagebehavior in length change upon defect annealing with acharacteristic dependence on the measuring direction re-lated to the deformation axes. Taking into account shapeanisotropy of the crystallites, the length change in variousdirections can be quantitatively analyzed yielding directaccess to the concentration of deformation-induced latticevacancies, the vacancy relaxation, and the grain boundaryexpansion. The routes A12 and BC12 of ECAP are com-pared.

AB - Structural anisotropy and excess volume in ultra-finegrained high-purity nickel prepared by equal-channel angu-lar pressing (ECAP) is studied by means of dilatometry andcompared with the processing route of high-pressure tor-sion. Both routes exhibit qualitatively similar three-stagebehavior in length change upon defect annealing with acharacteristic dependence on the measuring direction re-lated to the deformation axes. Taking into account shapeanisotropy of the crystallites, the length change in variousdirections can be quantitatively analyzed yielding directaccess to the concentration of deformation-induced latticevacancies, the vacancy relaxation, and the grain boundaryexpansion. The routes A12 and BC12 of ECAP are com-pared.

U2 - 10.3139/146.111463

DO - 10.3139/146.111463

M3 - Article

SN - 2195-8556

VL - 108

SP - 81

EP - 88

JO - International Journal of Materials Research

JF - International Journal of Materials Research

ER -

Structural anisotropy in equal-channel angular extruded nickel revealed by dilatometric study of excess volume

Abstract

Fields of Expertise

Zugriff auf Dokument

Fingerprint

Projekte

Defekte und Umwandlungen von Materialien

Atomare Defekte in Metallen und Keramiken

FWF- Defekte und strukturelle Anisotropie in ultrafeinkristallinen Metallen

Dieses zitieren