A model for predicting the borehole geometry for laser drilling is presented based on the calculation of a surface of constant absorbed fluence. It is applicable to helical drilling of through-holes with ultrashort laser pulses. The threshold fluence describing the borehole surface is fitted for best agreement with experimental data in the form of cross-sections of through-holes of different shapes and sizes in stainless steel samples. The fitted value is similar to ablation threshold fluence values reported for laser ablation models.
%0 Journal Article
%1 kroschel2018model
%A Kroschel, Alexander
%A Michalowski, Andreas
%A Thomas, Graf
%D 2018
%I de Gruyter
%J Advanced optical technologies
%K sent ubs_10007 ubs_20011 ubs_30111 ubs_40311 unibibliografie
%N 3
%P 183-188
%R 10.1515/aot-2018-0006
%T Model of the final borehole geometry for helical laser drilling
%V 7
%X A model for predicting the borehole geometry for laser drilling is presented based on the calculation of a surface of constant absorbed fluence. It is applicable to helical drilling of through-holes with ultrashort laser pulses. The threshold fluence describing the borehole surface is fitted for best agreement with experimental data in the form of cross-sections of through-holes of different shapes and sizes in stainless steel samples. The fitted value is similar to ablation threshold fluence values reported for laser ablation models.
@article{kroschel2018model,
abstract = {A model for predicting the borehole geometry for laser drilling is presented based on the calculation of a surface of constant absorbed fluence. It is applicable to helical drilling of through-holes with ultrashort laser pulses. The threshold fluence describing the borehole surface is fitted for best agreement with experimental data in the form of cross-sections of through-holes of different shapes and sizes in stainless steel samples. The fitted value is similar to ablation threshold fluence values reported for laser ablation models.},
added-at = {2020-08-11T12:24:26.000+0200},
author = {Kroschel, Alexander and Michalowski, Andreas and Thomas, Graf},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/28ba8c875f5b07df75d35a60b7384733f/unibiblio},
doi = {10.1515/aot-2018-0006},
interhash = {bfc46ae9426ee28f55d545755776e22a},
intrahash = {8ba8c875f5b07df75d35a60b7384733f},
issn = {{2192-8584} and {2192-8576}},
journal = {Advanced optical technologies},
keywords = {sent ubs_10007 ubs_20011 ubs_30111 ubs_40311 unibibliografie},
language = {eng},
number = 3,
pages = {183-188},
publisher = {de Gruyter},
timestamp = {2020-08-11T10:24:26.000+0200},
title = {Model of the final borehole geometry for helical laser drilling},
volume = 7,
year = 2018
}