Modelling blast fragmentation of cylinders of mortar and rock

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Modelling blast fragmentation of cylinders of mortar and rock. / Iravani, Armin; Kukolj, Ivan; Ouchterlony, Finn et al.
Fragblast 12: 12th International Symposium on Rock Fragmentation by Blasting. Hrsg. / Håkan Schunnesson; Daniel Johansson. Luleå: Luleå Univ. of Technology, 2018. S. 597-610.

Publikationen: Beitrag in Buch/Bericht/KonferenzbandBeitrag in Konferenzband

Harvard

Iravani, A, Kukolj, I, Ouchterlony, F, Antretter, T & Åström, J 2018, Modelling blast fragmentation of cylinders of mortar and rock. in H Schunnesson & D Johansson (Hrsg.), Fragblast 12: 12th International Symposium on Rock Fragmentation by Blasting. Luleå Univ. of Technology, Luleå, S. 597-610.

APA

Iravani, A., Kukolj, I., Ouchterlony, F., Antretter, T., & Åström, J. (2018). Modelling blast fragmentation of cylinders of mortar and rock. In H. Schunnesson, & D. Johansson (Hrsg.), Fragblast 12: 12th International Symposium on Rock Fragmentation by Blasting (S. 597-610). Luleå Univ. of Technology.

Vancouver

Iravani A, Kukolj I, Ouchterlony F, Antretter T, Åström J. Modelling blast fragmentation of cylinders of mortar and rock. in Schunnesson H, Johansson D, Hrsg., Fragblast 12: 12th International Symposium on Rock Fragmentation by Blasting. Luleå: Luleå Univ. of Technology. 2018. S. 597-610

Author

Iravani, Armin ; Kukolj, Ivan ; Ouchterlony, Finn et al. / Modelling blast fragmentation of cylinders of mortar and rock. Fragblast 12: 12th International Symposium on Rock Fragmentation by Blasting. Hrsg. / Håkan Schunnesson ; Daniel Johansson. Luleå : Luleå Univ. of Technology, 2018. S. 597-610

Bibtex - Download

@inproceedings{cb1cdfbd347e4067b3dafd99b40ca6cc,
title = "Modelling blast fragmentation of cylinders of mortar and rock",
abstract = "This paper investigates the blast fragmentation of a mortar cylinder by numerical simulations. The aim of the project is to understand the underlying mechanisms causing blast induced fines. Two numerical methods: Finite and Discrete Element Methods (FEM, DEM) with explicit time integration were used and the results were compared with the results of blasting tests. In FEM thin cylindrical disk ({\O}140 mm) with 1 layer of 3D continuum elements and in DEM a 3D cylinder with {\O}140×200 mm were modelled. They were loaded by a pressure evolution acting on borehole wall. Both models reproduce realistic crack patterns consisting of through-going radial cracks, with branching and interconnecting cracks, around a crushed zone at the borehole. The FEM models, however, for slight changes contain unrealistic areas of deleted elements, whereas the DEM models were more robust and delivered realistic fragment size distribution of the expected Swebrec function type. ",
author = "Armin Iravani and Ivan Kukolj and Finn Ouchterlony and Thomas Antretter and Jan {\AA}str{\"o}m",
year = "2018",
month = jun,
language = "English",
isbn = "978-91-7790-134-1",
pages = "597--610",
editor = "H{\aa}kan Schunnesson and Daniel Johansson",
booktitle = "Fragblast 12",
publisher = "Lule{\aa} Univ. of Technology",

}

RIS (suitable for import to EndNote) - Download

TY - GEN

T1 - Modelling blast fragmentation of cylinders of mortar and rock

AU - Iravani, Armin

AU - Kukolj, Ivan

AU - Ouchterlony, Finn

AU - Antretter, Thomas

AU - Åström, Jan

PY - 2018/6

Y1 - 2018/6

N2 - This paper investigates the blast fragmentation of a mortar cylinder by numerical simulations. The aim of the project is to understand the underlying mechanisms causing blast induced fines. Two numerical methods: Finite and Discrete Element Methods (FEM, DEM) with explicit time integration were used and the results were compared with the results of blasting tests. In FEM thin cylindrical disk (Ø140 mm) with 1 layer of 3D continuum elements and in DEM a 3D cylinder with Ø140×200 mm were modelled. They were loaded by a pressure evolution acting on borehole wall. Both models reproduce realistic crack patterns consisting of through-going radial cracks, with branching and interconnecting cracks, around a crushed zone at the borehole. The FEM models, however, for slight changes contain unrealistic areas of deleted elements, whereas the DEM models were more robust and delivered realistic fragment size distribution of the expected Swebrec function type.

AB - This paper investigates the blast fragmentation of a mortar cylinder by numerical simulations. The aim of the project is to understand the underlying mechanisms causing blast induced fines. Two numerical methods: Finite and Discrete Element Methods (FEM, DEM) with explicit time integration were used and the results were compared with the results of blasting tests. In FEM thin cylindrical disk (Ø140 mm) with 1 layer of 3D continuum elements and in DEM a 3D cylinder with Ø140×200 mm were modelled. They were loaded by a pressure evolution acting on borehole wall. Both models reproduce realistic crack patterns consisting of through-going radial cracks, with branching and interconnecting cracks, around a crushed zone at the borehole. The FEM models, however, for slight changes contain unrealistic areas of deleted elements, whereas the DEM models were more robust and delivered realistic fragment size distribution of the expected Swebrec function type.

M3 - Conference contribution

SN - 978-91-7790-134-1

SP - 597

EP - 610

BT - Fragblast 12

A2 - Schunnesson, Håkan

A2 - Johansson, Daniel

PB - Luleå Univ. of Technology

CY - Luleå

ER -

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