PRELIMINARY NUMERICAL ANALYSIS FOR THE ROLE OF SPEED ONTO LASER TECHNOLOGICAL PROCESSES
DOI:
https://doi.org/10.17770/etr2019vol3.4154Keywords:
laser technological processes, numerical experiments, laser, steel, temperature, speed, power densityAbstract
Studying the impact of speed on a number of laser processes such as marking, engraving, cutting, welding and others is crucial for the optimization of these technological processes. The processing speed, along with the frequency of laser pulses and their duration, also determines the time of action in the processing area and hence the absorbed quantity of electromagnetic energy. Based on numerical experiments with specialized software TEMPERATURFELD3D, the report analyzes the temperature variation in the processing area as a function of speed. The researches were analyzed for processing with two types of lasers emitting in the visible and infrared areas of the electromagnetic spectrum and two types of steels (tool and structural). From the course of the obtained temperature fields the dependence of temperature on the speed at two power densities was obtained. The obtained results help to make a preliminary assessment the speed work intervals for the processes as laser marking, laser engraving, laser cutting, laser welding and others. In this way, it is assisted in building an optimal concept for the passing of a particular technological process in function of the laser source, the material and the type of the technological operation.Downloads
References
Jianmei Li, Aiqun Wang, Yusong Wuab, ZhuoMa, Xinxin Fang, LiangTao, Experimental investigation and mathematical modeling of laser marking two-dimensional barcodes on surfaces of aluminum alloy, Journal of Manufacturing Processes, Volume 21, January 2016, pp 141-152
Valiulin A., Gorniy S., Grechco Y., Patrov M., Yudin K., Yurevich V. Lazerna markirovka materialov. Nauchno-technicheskij zhurnal Fotonika, 2007, 3, pp 16-22 (in Russian)
Dutta Majumdar, J., Laser material processing, International Materials Reviews,56(5-6), November 2011, pp. 341-388
Grigoryan A.G., Shiganov I.N., Misyurov A.I. Technologicheskiye processy lazernoy obrabotki. MGTU im. N.E.Baumana, 2006, pp 665 (in Russian)
Senthilkumar, V., Laser cutting process – A Review International Journal of Darshan Institute on Engineering Research & Emerging Technologies, Vol. 3, No. 1, 2014
Dyuli U. Lazernaya technologiya I analiz materialov. Mir, Moskva, 1986 (in Russian)
Murzin S., Ilyuchin V. Lazerniye technologii obrabotki materialov. SGAU, Samara, 2006 (in Russian)
Zakayukina L., Bannov V. Vidy i parametri processa lazernoy rezki. Novie informacionniye technologii v avtomatizirovannih sistemah. IPM im. M.Keldisha. Moskva, 2016, pp 163 – 167 (in Russian)
Lazov L., Angelov N. Osnovi factori, opredyelyaschi kachestvo na markirovkata na metali i splavi. Mezhdunarodna nauchna konfirenciya Amteh`07. Gabrovo, 23-24 noemvri 2007, tom I, pp 102-107 (in Bulgarian)
Angelov N. Optimizaciya na procesa markirane s lazerno lichenie na obrazci ot instrumentalna stomana. Disertacionen trud za pridobivane na stepen doktor. TU-Gabrovo, 2011 (in Bulgarian)
Belev I. Sreda za presmyatane na lazerno inducirani temperaturni poleta. Diplomna rabota, TU-Gabrovo, 2009 (in Bulgarian)
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