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Autori principali: Brand, Julia, Maximova, Ksenia, Madden, Steve, Rode, Andrei V., Mihankhah, Ehsan, Zigman, John, Hill, Andrew J., Rapp, Ludovic
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2412.06214
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author Brand, Julia
Maximova, Ksenia
Madden, Steve
Rode, Andrei V.
Mihankhah, Ehsan
Zigman, John
Hill, Andrew J.
Rapp, Ludovic
author_facet Brand, Julia
Maximova, Ksenia
Madden, Steve
Rode, Andrei V.
Mihankhah, Ehsan
Zigman, John
Hill, Andrew J.
Rapp, Ludovic
contents This study investigates the possibility of using a femtosecond pulse laser to remove iron ore slurry used to stabilise blast-hole structures by mining industries, intending to preserve the wall's stability and the chemical and compositional properties of the underlying rock. In situ minerals are often coated in other material deposits, such as dust or slurry in blast holes. To analyse the rock materials beneath, its surface must be exposed by removal of the surface layer. The ablation depth per pulse and ablation efficiency of the slurry were determined using femtosecond laser pulses. Then, the ablation of rocks of economic interest in Australia, including banded iron, limonite, goethite, shale, and hematite, was studied to establish their ablation thresholds and rates. Any damage induced by the laser was investigated by optical microscopy, optical profilometry, colourimetry, VIS/NIR spectroscopy and Fourier Transform Infrared spectroscopy (FTIR).
format Preprint
id arxiv_https___arxiv_org_abs_2412_06214
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Femtosecond laser processing for blast-hole analysis: laser removal of slurry and effect on rocks
Brand, Julia
Maximova, Ksenia
Madden, Steve
Rode, Andrei V.
Mihankhah, Ehsan
Zigman, John
Hill, Andrew J.
Rapp, Ludovic
Applied Physics
This study investigates the possibility of using a femtosecond pulse laser to remove iron ore slurry used to stabilise blast-hole structures by mining industries, intending to preserve the wall's stability and the chemical and compositional properties of the underlying rock. In situ minerals are often coated in other material deposits, such as dust or slurry in blast holes. To analyse the rock materials beneath, its surface must be exposed by removal of the surface layer. The ablation depth per pulse and ablation efficiency of the slurry were determined using femtosecond laser pulses. Then, the ablation of rocks of economic interest in Australia, including banded iron, limonite, goethite, shale, and hematite, was studied to establish their ablation thresholds and rates. Any damage induced by the laser was investigated by optical microscopy, optical profilometry, colourimetry, VIS/NIR spectroscopy and Fourier Transform Infrared spectroscopy (FTIR).
title Femtosecond laser processing for blast-hole analysis: laser removal of slurry and effect on rocks
topic Applied Physics
url https://arxiv.org/abs/2412.06214