Influence of the particle size distribution of coarse-grained refractories on the thermal shock performance

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Influence of the particle size distribution of coarse-grained refractories on the thermal shock performance. / Fruhstorfer, Jens.
In: Journal of the Australian Ceramic Society, Vol. 57.2021, No. 3, 07.2021, p. 899-909.

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@article{cb0083dca44341858dfc17580a42554e,
title = "Influence of the particle size distribution of coarse-grained refractories on the thermal shock performance",
abstract = "This study investigated the influences of the particle size distribution (characterized by the amounts of fines and coarses and by the maximum particle size (1|3 mm)) and the compaction pressure (50|100 MPa) of die-pressed bars on the behavior of the bulk density, cold modulus of rupture (CMOR) and Young{\textquoteright}s modulus E during five thermal shocks (TS). Highest densities were obtained for wide particle size distributions with densest packed coarse aggregates, a slight excess of lubricating fines and a high compaction pressure. Highest CMOR and E were obtained for the same parameters with the exception of a maximum particle size of 1 mm inducing lower flaw sizes. Independent on the compaction pressure, lowest CMOR losses during TS were obtained for a wide particle size distribution with a high number of aggregates constituted of medium-sized grains and densest packed coarses. Supposedly, crack deflection and contact shielding toughening occurred. During TS, E behaved differently. Probably, E was low when there were many flaws. During TS, these led to a large process zone and high decrease of E whereas for batches with higher initial E a crack could propagate with less microstructural interactions giving supposedly a smaller process zone and a reduced decrease.",
author = "Jens Fruhstorfer",
note = "Publisher Copyright: {\textcopyright} 2021, Australian Ceramic Society.",
year = "2021",
month = jul,
doi = "10.1007/s41779-021-00593-2",
language = "English",
volume = "57.2021",
pages = "899--909",
journal = "Journal of the Australian Ceramic Society",
issn = "0004-881X",
publisher = "Springer International Publishing",
number = "3",

}

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TY - JOUR

T1 - Influence of the particle size distribution of coarse-grained refractories on the thermal shock performance

AU - Fruhstorfer, Jens

N1 - Publisher Copyright: © 2021, Australian Ceramic Society.

PY - 2021/7

Y1 - 2021/7

N2 - This study investigated the influences of the particle size distribution (characterized by the amounts of fines and coarses and by the maximum particle size (1|3 mm)) and the compaction pressure (50|100 MPa) of die-pressed bars on the behavior of the bulk density, cold modulus of rupture (CMOR) and Young’s modulus E during five thermal shocks (TS). Highest densities were obtained for wide particle size distributions with densest packed coarse aggregates, a slight excess of lubricating fines and a high compaction pressure. Highest CMOR and E were obtained for the same parameters with the exception of a maximum particle size of 1 mm inducing lower flaw sizes. Independent on the compaction pressure, lowest CMOR losses during TS were obtained for a wide particle size distribution with a high number of aggregates constituted of medium-sized grains and densest packed coarses. Supposedly, crack deflection and contact shielding toughening occurred. During TS, E behaved differently. Probably, E was low when there were many flaws. During TS, these led to a large process zone and high decrease of E whereas for batches with higher initial E a crack could propagate with less microstructural interactions giving supposedly a smaller process zone and a reduced decrease.

AB - This study investigated the influences of the particle size distribution (characterized by the amounts of fines and coarses and by the maximum particle size (1|3 mm)) and the compaction pressure (50|100 MPa) of die-pressed bars on the behavior of the bulk density, cold modulus of rupture (CMOR) and Young’s modulus E during five thermal shocks (TS). Highest densities were obtained for wide particle size distributions with densest packed coarse aggregates, a slight excess of lubricating fines and a high compaction pressure. Highest CMOR and E were obtained for the same parameters with the exception of a maximum particle size of 1 mm inducing lower flaw sizes. Independent on the compaction pressure, lowest CMOR losses during TS were obtained for a wide particle size distribution with a high number of aggregates constituted of medium-sized grains and densest packed coarses. Supposedly, crack deflection and contact shielding toughening occurred. During TS, E behaved differently. Probably, E was low when there were many flaws. During TS, these led to a large process zone and high decrease of E whereas for batches with higher initial E a crack could propagate with less microstructural interactions giving supposedly a smaller process zone and a reduced decrease.

UR - http://www.scopus.com/inward/record.url?scp=85103401170&partnerID=8YFLogxK

U2 - 10.1007/s41779-021-00593-2

DO - 10.1007/s41779-021-00593-2

M3 - Article

VL - 57.2021

SP - 899

EP - 909

JO - Journal of the Australian Ceramic Society

JF - Journal of the Australian Ceramic Society

SN - 0004-881X

IS - 3

ER -