New Technology of Laser Parallel Thermocracking of Brittle Materials

Abstract

This paper is devoted to the development of new technology called laser parallel thermocracking that applicable for brittle nonmetallic materials such as glass, sapphire, silicon etc. The mathematical model of laser parallel thermocracking process is introduced. Results of experimental researches are shown in order that define the interrelation between the basic parameters of laser parallel thermocracking process.

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V. Stepanovich Kondratenko, V. Yeugenyevich Borisovsky, A. Sergeevich Naumov and A. Vladimirovich Sorokin, "New Technology of Laser Parallel Thermocracking of Brittle Materials," Optics and Photonics Journal, Vol. 3 No. 2B, 2013, pp. 6-10. doi: 10.4236/opj.2013.32B002.

Conflicts of Interest

The authors declare no conflicts of interest.

References

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[2] V. S. Kondratenko, “Research and Development of the Glass Cutting Process by Laser Controlled Thermocracking, “Исследование и разработка процесса резки стекла методом лазерного управляемого термораскалывания,” Thesis Doctor of Sciences, Moscow, 1983.
[3] V. S. Kondratenko, V. E. Borisovsky, P. D. Gindin and A. S. Naumov, “Laser Parallel Thermocracking of Brittle Nonmetallic Materials, “Лазерное Параллельное термо-раскалывание хрупких неметаллических материалов,” Proceedings of the International Scientific and Technical Conference. “Priborinform-2005”, Tunisia, October 2005.
[4] L. I. Gluckman, “Piezoelectric Quartz Resonators, “Пье- зоэлектрические кварцевые резонаторы,” Moscow, “Radio and Communication,” 1981.

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