THE FEATURES OF LASER EMISSION ENERGY DISTRIBUTION AT MATHEMATIC MODELING OF WORKING PROCESS

THE FEATURES OF LASER EMISSION ENERGY DISTRIBUTION AT MATHEMATIC MODELING OF WORKING PROCESS

The space laser emission energy distribution of different continuous operation settings depends from many factors, first on the settings design. For more accurate describing of multimode laser emission energy distribution intensity the experimental and theoretic model, which based on experimental la...

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Main Authors: A. M. Avsiyevich, O. G. Devoino, A. D. Kocherov, A. P. Pilipchuk
Format: Article
Language:Russian
Published: Belarusian National Technical University 2013-02-01
Series:Nauka i Tehnika
Online Access:https://sat.bntu.by/jour/article/view/119
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spelling doaj-33d8d06703d5491081ab0dc5d25441d52021-07-29T08:29:31ZrusBelarusian National Technical UniversityNauka i Tehnika2227-10312414-03922013-02-010137112THE FEATURES OF LASER EMISSION ENERGY DISTRIBUTION AT MATHEMATIC MODELING OF WORKING PROCESSA. M. Avsiyevich0O. G. Devoino1A. D. Kocherov2A. P. Pilipchuk3Belarusian National Technical UniversityBelarusian National Technical UniversityBelarusian National Technical UniversityBelarusian National Technical UniversityThe space laser emission energy distribution of different continuous operation settings depends from many factors, first on the settings design. For more accurate describing of multimode laser emission energy distribution intensity the experimental and theoretic model, which based on experimental laser emission distribution shift presentation with given accuracy rating in superposition basic function form, is proposed. This model provides the approximation error only 2,2 percent as compared with 24,6 % and 61 % for uniform and Gauss approximation accordingly. The proposed model usage lets more accurate take into consideration the laser emission and working surface interaction peculiarity, increases temperature fields calculation accuracy for mathematic modeling of laser treatment processes. The method of experimental laser emission energy distribution studying for given source and mathematic apparatus for calculation of laser emission energy distribution intensity parameters depended from the distance in radial direction on surface heating zone are shown.https://sat.bntu.by/jour/article/view/119
collection DOAJ
language Russian
format Article
sources DOAJ
author A. M. Avsiyevich
O. G. Devoino
A. D. Kocherov
A. P. Pilipchuk
spellingShingle A. M. Avsiyevich
O. G. Devoino
A. D. Kocherov
A. P. Pilipchuk
THE FEATURES OF LASER EMISSION ENERGY DISTRIBUTION AT MATHEMATIC MODELING OF WORKING PROCESS
Nauka i Tehnika
author_facet A. M. Avsiyevich
O. G. Devoino
A. D. Kocherov
A. P. Pilipchuk
author_sort A. M. Avsiyevich
title THE FEATURES OF LASER EMISSION ENERGY DISTRIBUTION AT MATHEMATIC MODELING OF WORKING PROCESS
title_short THE FEATURES OF LASER EMISSION ENERGY DISTRIBUTION AT MATHEMATIC MODELING OF WORKING PROCESS
title_full THE FEATURES OF LASER EMISSION ENERGY DISTRIBUTION AT MATHEMATIC MODELING OF WORKING PROCESS
title_fullStr THE FEATURES OF LASER EMISSION ENERGY DISTRIBUTION AT MATHEMATIC MODELING OF WORKING PROCESS
title_full_unstemmed THE FEATURES OF LASER EMISSION ENERGY DISTRIBUTION AT MATHEMATIC MODELING OF WORKING PROCESS
title_sort features of laser emission energy distribution at mathematic modeling of working process
publisher Belarusian National Technical University
series Nauka i Tehnika
issn 2227-1031
2414-0392
publishDate 2013-02-01
description The space laser emission energy distribution of different continuous operation settings depends from many factors, first on the settings design. For more accurate describing of multimode laser emission energy distribution intensity the experimental and theoretic model, which based on experimental laser emission distribution shift presentation with given accuracy rating in superposition basic function form, is proposed. This model provides the approximation error only 2,2 percent as compared with 24,6 % and 61 % for uniform and Gauss approximation accordingly. The proposed model usage lets more accurate take into consideration the laser emission and working surface interaction peculiarity, increases temperature fields calculation accuracy for mathematic modeling of laser treatment processes. The method of experimental laser emission energy distribution studying for given source and mathematic apparatus for calculation of laser emission energy distribution intensity parameters depended from the distance in radial direction on surface heating zone are shown.
url https://sat.bntu.by/jour/article/view/119
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