Numerical study of the influence of irradiation parameters on the microwave-induced stresses in granite

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Numerical study of the influence of irradiation parameters on the microwave-induced stresses in granite. / Toifl, Michael; Hartlieb, Philipp; Meisels, Ronald et al.
In: Minerals engineering, Vol. 103-104.2017, No. April, 2017, p. 78-92.

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@article{f88c8cfb20cf4513b4be2c35605d4bd9,
title = "Numerical study of the influence of irradiation parameters on the microwave-induced stresses in granite",
abstract = "Mechanical comminution of rocks is an energy intensive process with energy efficiency around 1%. A possible way to enhance the efficiency is the prior application of high-power microwaves. Microwave irradiation of a heterogeneous material introduces inhomogeneous electromagnetic and thermal fields which result in stresses and potentially in damage. In order to assess the industrial applicability, various 3D numerical analyses with either constant microwave power or constant energy were performed on granite samples. To this end dielectric and thermal properties were taken from measurements. For the numerical computations a realistic 3D microstructure was generated by a Voronoi tessellation algorithm. In order to calculate the electromagnetic field inside the rock sample, a finite difference time domain simulation was performed. The resulting temperature as well as stress field is evaluated in finite element analyses. The numerical results were corroborated by microwave irradiation experiments on granite samples.",
author = "Michael Toifl and Philipp Hartlieb and Ronald Meisels and Thomas Antretter and Friedemar Kuchar",
year = "2017",
doi = "10.1016/j.mineng.2016.09.011",
language = "English",
volume = "103-104.2017",
pages = "78--92",
journal = "Minerals engineering",
issn = "0892-6875",
publisher = "Elsevier",
number = "April",

}

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TY - JOUR

T1 - Numerical study of the influence of irradiation parameters on the microwave-induced stresses in granite

AU - Toifl, Michael

AU - Hartlieb, Philipp

AU - Meisels, Ronald

AU - Antretter, Thomas

AU - Kuchar, Friedemar

PY - 2017

Y1 - 2017

N2 - Mechanical comminution of rocks is an energy intensive process with energy efficiency around 1%. A possible way to enhance the efficiency is the prior application of high-power microwaves. Microwave irradiation of a heterogeneous material introduces inhomogeneous electromagnetic and thermal fields which result in stresses and potentially in damage. In order to assess the industrial applicability, various 3D numerical analyses with either constant microwave power or constant energy were performed on granite samples. To this end dielectric and thermal properties were taken from measurements. For the numerical computations a realistic 3D microstructure was generated by a Voronoi tessellation algorithm. In order to calculate the electromagnetic field inside the rock sample, a finite difference time domain simulation was performed. The resulting temperature as well as stress field is evaluated in finite element analyses. The numerical results were corroborated by microwave irradiation experiments on granite samples.

AB - Mechanical comminution of rocks is an energy intensive process with energy efficiency around 1%. A possible way to enhance the efficiency is the prior application of high-power microwaves. Microwave irradiation of a heterogeneous material introduces inhomogeneous electromagnetic and thermal fields which result in stresses and potentially in damage. In order to assess the industrial applicability, various 3D numerical analyses with either constant microwave power or constant energy were performed on granite samples. To this end dielectric and thermal properties were taken from measurements. For the numerical computations a realistic 3D microstructure was generated by a Voronoi tessellation algorithm. In order to calculate the electromagnetic field inside the rock sample, a finite difference time domain simulation was performed. The resulting temperature as well as stress field is evaluated in finite element analyses. The numerical results were corroborated by microwave irradiation experiments on granite samples.

U2 - 10.1016/j.mineng.2016.09.011

DO - 10.1016/j.mineng.2016.09.011

M3 - Article

VL - 103-104.2017

SP - 78

EP - 92

JO - Minerals engineering

JF - Minerals engineering

SN - 0892-6875

IS - April

ER -