Discrete element modelling of ordinary refractory ceramics under cold crushing testing: Influence of minimum element size

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Discrete element modelling of ordinary refractory ceramics under cold crushing testing: Influence of minimum element size. / Du, Weiliang; Jin, Shengli; Emam, Sacha et al.
In: Ceramics International, Vol. 48.2022, No. 12, 15.06.2022, p. 17934-17941.

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@article{17d3fcf199084b42843fe1c23cc9cd76,
title = "Discrete element modelling of ordinary refractory ceramics under cold crushing testing: Influence of minimum element size",
abstract = "Ordinary refractory ceramics comprise aggregates and fines of different sizes. Reasonable representation of fines in discrete element models is important for computation efficiency and obtaining representative results. In this study, different minimum element sizes were stochastically defined to represent the fines in ordinary refractory ceramics, and their influences on the model structure, load/strain curves, and crack events were investigated under the same interface properties and with circular elements. It was concluded that the coordination number of a discrete element (DE) model increases with increasing minimum element size as well as cold crushing strength when the minimum element size is larger than 100 μm. Mild scattering of cold crushing strength can be achieved with a minimum element size of less than 10 μm. Furthermore, tensile and shear failures occur in the models with the present property definitions. The cold crushing strengths and crack densities in the models with different element size ranges followed normal distributions.",
keywords = "Discrete element, Cold crushing strength, Refractories, Statistical analysis",
author = "Weiliang Du and Shengli Jin and Sacha Emam and Dietmar Gruber and Harald Harmuth",
year = "2022",
month = jun,
day = "15",
doi = "10.1016/j.ceramint.2022.03.066",
language = "English",
volume = "48.2022",
pages = "17934--17941",
journal = "Ceramics International",
issn = "0272-8842",
publisher = "Elsevier",
number = "12",

}

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TY - JOUR

T1 - Discrete element modelling of ordinary refractory ceramics under cold crushing testing

T2 - Influence of minimum element size

AU - Du, Weiliang

AU - Jin, Shengli

AU - Emam, Sacha

AU - Gruber, Dietmar

AU - Harmuth, Harald

PY - 2022/6/15

Y1 - 2022/6/15

N2 - Ordinary refractory ceramics comprise aggregates and fines of different sizes. Reasonable representation of fines in discrete element models is important for computation efficiency and obtaining representative results. In this study, different minimum element sizes were stochastically defined to represent the fines in ordinary refractory ceramics, and their influences on the model structure, load/strain curves, and crack events were investigated under the same interface properties and with circular elements. It was concluded that the coordination number of a discrete element (DE) model increases with increasing minimum element size as well as cold crushing strength when the minimum element size is larger than 100 μm. Mild scattering of cold crushing strength can be achieved with a minimum element size of less than 10 μm. Furthermore, tensile and shear failures occur in the models with the present property definitions. The cold crushing strengths and crack densities in the models with different element size ranges followed normal distributions.

AB - Ordinary refractory ceramics comprise aggregates and fines of different sizes. Reasonable representation of fines in discrete element models is important for computation efficiency and obtaining representative results. In this study, different minimum element sizes were stochastically defined to represent the fines in ordinary refractory ceramics, and their influences on the model structure, load/strain curves, and crack events were investigated under the same interface properties and with circular elements. It was concluded that the coordination number of a discrete element (DE) model increases with increasing minimum element size as well as cold crushing strength when the minimum element size is larger than 100 μm. Mild scattering of cold crushing strength can be achieved with a minimum element size of less than 10 μm. Furthermore, tensile and shear failures occur in the models with the present property definitions. The cold crushing strengths and crack densities in the models with different element size ranges followed normal distributions.

KW - Discrete element

KW - Cold crushing strength

KW - Refractories

KW - Statistical analysis

U2 - 10.1016/j.ceramint.2022.03.066

DO - 10.1016/j.ceramint.2022.03.066

M3 - Article

VL - 48.2022

SP - 17934

EP - 17941

JO - Ceramics International

JF - Ceramics International

SN - 0272-8842

IS - 12

ER -