The fragmentation-energy fan, a universal behavior of blasted rock?

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The fragmentation-energy fan, a universal behavior of blasted rock? / Ouchterlony, Finn; Sanchidrián, Jose A; Moser, Peter.
Proc 43rd ISEE Conference on Explosives and Blasting Technique. Band 43 Cleveland, OH, 2017. S. 281-294.

Publikationen: Beitrag in Buch/Bericht/KonferenzbandBeitrag in Konferenzband

Harvard

Ouchterlony, F, Sanchidrián, JA & Moser, P 2017, The fragmentation-energy fan, a universal behavior of blasted rock? in Proc 43rd ISEE Conference on Explosives and Blasting Technique. Bd. 43, Cleveland, OH, S. 281-294.

APA

Ouchterlony, F., Sanchidrián, J. A., & Moser, P. (2017). The fragmentation-energy fan, a universal behavior of blasted rock? In Proc 43rd ISEE Conference on Explosives and Blasting Technique (Band 43, S. 281-294).

Vancouver

Ouchterlony F, Sanchidrián JA, Moser P. The fragmentation-energy fan, a universal behavior of blasted rock? in Proc 43rd ISEE Conference on Explosives and Blasting Technique. Band 43. Cleveland, OH. 2017. S. 281-294

Author

Ouchterlony, Finn ; Sanchidrián, Jose A ; Moser, Peter. / The fragmentation-energy fan, a universal behavior of blasted rock?. Proc 43rd ISEE Conference on Explosives and Blasting Technique. Band 43 Cleveland, OH, 2017. S. 281-294

Bibtex - Download

@inproceedings{8e410a95f9da41aa90c2a7f5202071fc,
title = "The fragmentation-energy fan, a universal behavior of blasted rock?",
abstract = "Blast fragmentation data in the form of percentile fragment sizes as function of specific charge often form a set of straight lines in log(size)-log(energy) space that tend to converge on a common focal point. Single-hole shots in specimens of virgin material clearly show this and the phenomenon is called the fragmentation-energy fan. Field data from bench blasting in rock scatter much more but may be interpreted to form such fans. The slopes values of the fan lines depend primarily on the percentile level. This property can be derived from sieving functions of the form P[ln(x/xmax)/ln(xmax/x50)]. An example isthe Swebrec function when the parameter b is constant.The fragmentation-energy fan and associated sieving function contradict two basic assumptions of the Kuz-Ram model; i) that the Rosin-Rammler function reproduces the sieving data well and ii) that the uniformity index n = constant and independent of q. This favors formulating fragmentation prediction formulas instead of the Kuz-Ram way as a set of percentile fragment sizes, parameters that by definition are independent of the size distribution. A generalization of the fan behavior to include non-dimensional fragment sizes and an energy term with implicit size dependence seems possible to make.",
author = "Finn Ouchterlony and Sanchidri{\'a}n, {Jose A} and Peter Moser",
year = "2017",
month = jan,
day = "29",
language = "English",
volume = "43",
pages = "281--294",
booktitle = "Proc 43rd ISEE Conference on Explosives and Blasting Technique",

}

RIS (suitable for import to EndNote) - Download

TY - GEN

T1 - The fragmentation-energy fan, a universal behavior of blasted rock?

AU - Ouchterlony, Finn

AU - Sanchidrián, Jose A

AU - Moser, Peter

PY - 2017/1/29

Y1 - 2017/1/29

N2 - Blast fragmentation data in the form of percentile fragment sizes as function of specific charge often form a set of straight lines in log(size)-log(energy) space that tend to converge on a common focal point. Single-hole shots in specimens of virgin material clearly show this and the phenomenon is called the fragmentation-energy fan. Field data from bench blasting in rock scatter much more but may be interpreted to form such fans. The slopes values of the fan lines depend primarily on the percentile level. This property can be derived from sieving functions of the form P[ln(x/xmax)/ln(xmax/x50)]. An example isthe Swebrec function when the parameter b is constant.The fragmentation-energy fan and associated sieving function contradict two basic assumptions of the Kuz-Ram model; i) that the Rosin-Rammler function reproduces the sieving data well and ii) that the uniformity index n = constant and independent of q. This favors formulating fragmentation prediction formulas instead of the Kuz-Ram way as a set of percentile fragment sizes, parameters that by definition are independent of the size distribution. A generalization of the fan behavior to include non-dimensional fragment sizes and an energy term with implicit size dependence seems possible to make.

AB - Blast fragmentation data in the form of percentile fragment sizes as function of specific charge often form a set of straight lines in log(size)-log(energy) space that tend to converge on a common focal point. Single-hole shots in specimens of virgin material clearly show this and the phenomenon is called the fragmentation-energy fan. Field data from bench blasting in rock scatter much more but may be interpreted to form such fans. The slopes values of the fan lines depend primarily on the percentile level. This property can be derived from sieving functions of the form P[ln(x/xmax)/ln(xmax/x50)]. An example isthe Swebrec function when the parameter b is constant.The fragmentation-energy fan and associated sieving function contradict two basic assumptions of the Kuz-Ram model; i) that the Rosin-Rammler function reproduces the sieving data well and ii) that the uniformity index n = constant and independent of q. This favors formulating fragmentation prediction formulas instead of the Kuz-Ram way as a set of percentile fragment sizes, parameters that by definition are independent of the size distribution. A generalization of the fan behavior to include non-dimensional fragment sizes and an energy term with implicit size dependence seems possible to make.

M3 - Conference contribution

VL - 43

SP - 281

EP - 294

BT - Proc 43rd ISEE Conference on Explosives and Blasting Technique

CY - Cleveland, OH

ER -

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