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Monitoring the Quality of Laser Cutting

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In engineering industry the production of components begins with separation of the base material and this technological operation can be time consuming, especially in large-scale production. Such production can be made more efficient by means of laser technology focusing on material cutting. Efficiency of cutting is determined not only by shortening of working time or energy saving, but also by the required cutting quality. In the paper we compare the impact of cutting speed changing and laser beam performance on the cutting edge quality. Based on requirements of dimensional accuracy and preset roughness of the cutting edge, we evaluated the cutting quality of laser in samples of different materials. Measured values of sample dimensions and roughness are compared in conclusions of the paper, where we estimate whether the samples meet specified requirements of dimensional accuracy and roughness of the cutting edge in order to make the production process more efficient.
Rocznik
Strony
137--143
Opis fizyczny
Bibliogr. 10 poz., fig., tab.
Twórcy
autor
  • Slovak University of Agriculture Nitra, Slovac Republic
  • Slovak University of Agriculture Nitra, Slovac Republic
  • Slovak University of Agriculture Nitra, Slovac Republic
autor
  • Slovak University of Agriculture Nitra, Slovac Republic
autor
  • Slovak University of Agriculture Nitra, Slovac Republic
autor
  • Silesian University of Technology, Poland
Bibliografia
  • 1. Balla, J., Brozman, D., Mikuš, R. 2006. Wear investigation of tool cutting edge penetrating into soil by optical measurement and computer modelling. In The Iraqi journal of agricultural sciences, 2006, vol. 37, no. 1, p. 63-68.
  • 2. Benko, B. et al. 2000. Laser technology. Bratislava: STU Bratislava. 122 s. ISBN 80-277-1425-9.
  • 3. Bernát, R. 2008. Influence of the shape and geometry of the cutting tool on the quality of the machined surface: dissertation work. Nitra: SPU. 266 s.
  • 4. Gajtanska, M. et al. 2004. Lasers and their use in industry. Elected: Technical University of Zvolen. 295 s. ISBN 80-228-1398-2.
  • 5. Geleta, V. 2013. Progressive machining technology. Bratislava: Slovak University of Technology. 163 s. ISBN 978-80-227-3997-9.
  • 6. Jiménez, A., Boto, F., Irigoien, I., Sierra, B., Suarez, A. 2017. Stability analysis of radial turning proces for superalloys. In: Management Systems in Production Engineering 2017, Volume 25, Issue 3, Poland. ISSN 2450-5781, pp. 158-162.
  • 7. Kováč I., Žarnovský J., Žitňanský J. 2005 Wear-resistant layers In: New trends in technology system operation: proceedings of the seventh conference with international participation, Prešov, 20.-21. October 2005. Košice: Technical University, 2005. ISBN 80-8073-382-1. with. 160-161.
  • 8. Mičietová, A. 2001. Unconventional machining methods. Žilina: Publisher of the University of Žilina. 376 s. ISBN 80-7100-853-2.
  • 9. Leonardo Technology. 2016. Fiber Principle - FIBER LASER [online]. © 2016 [cit. 2018-02-05]. Available on: http://www.lt.cz/e-learning/laser/princip-vlaknoveho-fiber-laseru.
  • 10. Simon, V., Johansson, C.A., Galar D. 2017. Aggregation of electric current consumption features to extract maintenance KPIs. In: Management Systems in Production Engineering 2017, Volume 25, Issue 3, Poland. ISSN 2450-5781, pp. 183-190.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3903dc46-e738-442f-a5fd-2c4fab06314a
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