The median versus the mean fragment size and other issues with the Kuz-Ram model

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The median versus the mean fragment size and other issues with the Kuz-Ram model. / Ouchterlony, Finn.
Fragblast 11, 11th international Symposium on Rock Fragmentation by Blasting: 11th international Symposium on Rock Fragmentation by Blasting. Hrsg. / Alex T Spathis. Band 7/2015 Carlton VIC, 2015. S. 109-119.

Publikationen: Beitrag in Buch/Bericht/KonferenzbandBeitrag in Konferenzband

Harvard

Ouchterlony, F 2015, The median versus the mean fragment size and other issues with the Kuz-Ram model. in AT Spathis (Hrsg.), Fragblast 11, 11th international Symposium on Rock Fragmentation by Blasting: 11th international Symposium on Rock Fragmentation by Blasting. Bd. 7/2015, Carlton VIC, S. 109-119.

APA

Ouchterlony, F. (2015). The median versus the mean fragment size and other issues with the Kuz-Ram model. In A. T. Spathis (Hrsg.), Fragblast 11, 11th international Symposium on Rock Fragmentation by Blasting: 11th international Symposium on Rock Fragmentation by Blasting (Band 7/2015, S. 109-119).

Vancouver

Ouchterlony F. The median versus the mean fragment size and other issues with the Kuz-Ram model. in Spathis AT, Hrsg., Fragblast 11, 11th international Symposium on Rock Fragmentation by Blasting: 11th international Symposium on Rock Fragmentation by Blasting. Band 7/2015. Carlton VIC. 2015. S. 109-119

Author

Ouchterlony, Finn. / The median versus the mean fragment size and other issues with the Kuz-Ram model. Fragblast 11, 11th international Symposium on Rock Fragmentation by Blasting: 11th international Symposium on Rock Fragmentation by Blasting. Hrsg. / Alex T Spathis. Band 7/2015 Carlton VIC, 2015. S. 109-119

Bibtex - Download

@inproceedings{923bf6a98b4c4b38bf4a5800767fc830,
title = "The median versus the mean fragment size and other issues with the Kuz-Ram model",
abstract = "Soviet precursors to Cunningham{\textquoteright}s Kuz-Ram model from 1983 are described. They are rooted in the mean fragment size and Rosin-Rammler (RR) fits to sieving data and rely on approximations. Three versions of Kuz-Ram model are presented and all three are de facto based on the median fragment size x50, even if the term mean is used in the papers. This discrepancy caused Spathis in 2004 to suggest a correction procedure for the Kuz-Ram rock factor A, which was said to explain some of the missing fines in the model. This correction, while applicable to Cunningham{\textquoteright}s 1983 paper, does not apply to his 1987 paper in which he presents his own A factor.Common fixes of the Kuz-Ram model{\textquoteright}s fines issue are fragmentation models where the fines are mainly generated in a crushed zone around a blast hole. This is contradicted by careful model blasting tests. The lack of a largest block size in the RR function may lead to spurious values of the uniformity coefficient n, e.g. in conjunction with image based fragmentation measurements or crusher modeling. These issues may be solved by using the transformed RR function, which has a largest block size xmax or its replacement by the Swebrec function such as in the KCO model. The mean to median issue is investigated in some detail and it is found that using x50 instead of the mean i) has a sounder theoretical background, ii) is less prone to errors and iii) is not contradicted by the original Soviet data. It is finally suggested that future work on fragmentation prediction equations focus on the use of distribution independent quantities like percentiles, e.g. x50, x20 and x80. Some previous work in this direction is briefly analyzed and one consequence is e.g. that the n-value of the Kuz-Ram model should depend on specific charge.",
author = "Finn Ouchterlony",
year = "2015",
language = "English",
volume = "7/2015",
pages = "109--119",
editor = "Spathis, {Alex T}",
booktitle = "Fragblast 11, 11th international Symposium on Rock Fragmentation by Blasting",

}

RIS (suitable for import to EndNote) - Download

TY - GEN

T1 - The median versus the mean fragment size and other issues with the Kuz-Ram model

AU - Ouchterlony, Finn

PY - 2015

Y1 - 2015

N2 - Soviet precursors to Cunningham’s Kuz-Ram model from 1983 are described. They are rooted in the mean fragment size and Rosin-Rammler (RR) fits to sieving data and rely on approximations. Three versions of Kuz-Ram model are presented and all three are de facto based on the median fragment size x50, even if the term mean is used in the papers. This discrepancy caused Spathis in 2004 to suggest a correction procedure for the Kuz-Ram rock factor A, which was said to explain some of the missing fines in the model. This correction, while applicable to Cunningham’s 1983 paper, does not apply to his 1987 paper in which he presents his own A factor.Common fixes of the Kuz-Ram model’s fines issue are fragmentation models where the fines are mainly generated in a crushed zone around a blast hole. This is contradicted by careful model blasting tests. The lack of a largest block size in the RR function may lead to spurious values of the uniformity coefficient n, e.g. in conjunction with image based fragmentation measurements or crusher modeling. These issues may be solved by using the transformed RR function, which has a largest block size xmax or its replacement by the Swebrec function such as in the KCO model. The mean to median issue is investigated in some detail and it is found that using x50 instead of the mean i) has a sounder theoretical background, ii) is less prone to errors and iii) is not contradicted by the original Soviet data. It is finally suggested that future work on fragmentation prediction equations focus on the use of distribution independent quantities like percentiles, e.g. x50, x20 and x80. Some previous work in this direction is briefly analyzed and one consequence is e.g. that the n-value of the Kuz-Ram model should depend on specific charge.

AB - Soviet precursors to Cunningham’s Kuz-Ram model from 1983 are described. They are rooted in the mean fragment size and Rosin-Rammler (RR) fits to sieving data and rely on approximations. Three versions of Kuz-Ram model are presented and all three are de facto based on the median fragment size x50, even if the term mean is used in the papers. This discrepancy caused Spathis in 2004 to suggest a correction procedure for the Kuz-Ram rock factor A, which was said to explain some of the missing fines in the model. This correction, while applicable to Cunningham’s 1983 paper, does not apply to his 1987 paper in which he presents his own A factor.Common fixes of the Kuz-Ram model’s fines issue are fragmentation models where the fines are mainly generated in a crushed zone around a blast hole. This is contradicted by careful model blasting tests. The lack of a largest block size in the RR function may lead to spurious values of the uniformity coefficient n, e.g. in conjunction with image based fragmentation measurements or crusher modeling. These issues may be solved by using the transformed RR function, which has a largest block size xmax or its replacement by the Swebrec function such as in the KCO model. The mean to median issue is investigated in some detail and it is found that using x50 instead of the mean i) has a sounder theoretical background, ii) is less prone to errors and iii) is not contradicted by the original Soviet data. It is finally suggested that future work on fragmentation prediction equations focus on the use of distribution independent quantities like percentiles, e.g. x50, x20 and x80. Some previous work in this direction is briefly analyzed and one consequence is e.g. that the n-value of the Kuz-Ram model should depend on specific charge.

M3 - Conference contribution

VL - 7/2015

SP - 109

EP - 119

BT - Fragblast 11, 11th international Symposium on Rock Fragmentation by Blasting

A2 - Spathis, Alex T

CY - Carlton VIC

ER -