Anisotropy of fracture mechanical properties of carbon-containing refractories and its impact on cracking in a steel ladle lining

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Anisotropy of fracture mechanical properties of carbon-containing refractories and its impact on cracking in a steel ladle lining. / Gruber, Dietmar; Schachner, Stefan; Harmuth, Harald.
In: Open ceramics, Vol. 14.2023, No. June, 100363, 02.05.2023.

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@article{e40321442f504f7382cb2ce2e1037335,
title = "Anisotropy of fracture mechanical properties of carbon-containing refractories and its impact on cracking in a steel ladle lining",
abstract = "Cracks are occasionally observed in bricks installed in steel ladle sidewalls. Three magnesia-carbon refractories used in steel ladles were investigated in terms of the anisotropy of the mechanical properties and their possible contribution to crack formation. The main differences between these bricks were the direction of the moulding force and the type of press used (spindle or hydraulic press). This study aimed to clarify the reasons for the inferior performance of one refractory material compared to other materials from a thermomechanical point of view. The results showed clear anisotropy in the elastic and fracture mechanical data. Brittleness was the lowest and crack propagation resistance was the highest when the crack extended parallel to the moulding force. Therefore, the lowest cracking vulnerability was observed in the case of a moulding force perpendicular to the longest brick edge and this was verified via field observations.",
keywords = "Anisotropy, Magnesia-carbon refractories, Specific fracture energy",
author = "Dietmar Gruber and Stefan Schachner and Harald Harmuth",
note = "Publisher Copyright: {\textcopyright} 2023 The Authors",
year = "2023",
month = may,
day = "2",
doi = "10.1016/j.oceram.2023.100363",
language = "English",
volume = "14.2023",
journal = "Open ceramics",
issn = "2666-5395",
publisher = "Elsevier",
number = "June",

}

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TY - JOUR

T1 - Anisotropy of fracture mechanical properties of carbon-containing refractories and its impact on cracking in a steel ladle lining

AU - Gruber, Dietmar

AU - Schachner, Stefan

AU - Harmuth, Harald

N1 - Publisher Copyright: © 2023 The Authors

PY - 2023/5/2

Y1 - 2023/5/2

N2 - Cracks are occasionally observed in bricks installed in steel ladle sidewalls. Three magnesia-carbon refractories used in steel ladles were investigated in terms of the anisotropy of the mechanical properties and their possible contribution to crack formation. The main differences between these bricks were the direction of the moulding force and the type of press used (spindle or hydraulic press). This study aimed to clarify the reasons for the inferior performance of one refractory material compared to other materials from a thermomechanical point of view. The results showed clear anisotropy in the elastic and fracture mechanical data. Brittleness was the lowest and crack propagation resistance was the highest when the crack extended parallel to the moulding force. Therefore, the lowest cracking vulnerability was observed in the case of a moulding force perpendicular to the longest brick edge and this was verified via field observations.

AB - Cracks are occasionally observed in bricks installed in steel ladle sidewalls. Three magnesia-carbon refractories used in steel ladles were investigated in terms of the anisotropy of the mechanical properties and their possible contribution to crack formation. The main differences between these bricks were the direction of the moulding force and the type of press used (spindle or hydraulic press). This study aimed to clarify the reasons for the inferior performance of one refractory material compared to other materials from a thermomechanical point of view. The results showed clear anisotropy in the elastic and fracture mechanical data. Brittleness was the lowest and crack propagation resistance was the highest when the crack extended parallel to the moulding force. Therefore, the lowest cracking vulnerability was observed in the case of a moulding force perpendicular to the longest brick edge and this was verified via field observations.

KW - Anisotropy

KW - Magnesia-carbon refractories

KW - Specific fracture energy

UR - http://www.scopus.com/inward/record.url?scp=85154043452&partnerID=8YFLogxK

U2 - 10.1016/j.oceram.2023.100363

DO - 10.1016/j.oceram.2023.100363

M3 - Article

AN - SCOPUS:85154043452

VL - 14.2023

JO - Open ceramics

JF - Open ceramics

SN - 2666-5395

IS - June

M1 - 100363

ER -