A laser marking process for glass products was studied. This process involves laser-induced transfer of ink vapor to the product surface upon irradiation from the opposite side through the glass. A pulse-periodic nanosecond laser was used to form the image. The marking quality and its technological compatibility with subsequent laminated glass manufacturing operations, including thermal and barothermal exposure, were validated. Tests showed that the average strength values of the marked samples (495 and 431 MPa) were within the required range and did not indicate a critical reduction in mechanical properties compared to the permissible standards for products of this class. The obtained results confirm the feasibility of implementing this technology into the production cycle for automated product identification (alphanumeric designations, QR codes, barcodes) while maintaining operational characteristics.
Maksim E. Kustov – senior engineer of the Scientific and Production Laboratory № 23, JSC "V. F. Solinov NITS", Moscow, Russia
Ivan S. Kurchatov – researcher at the Scientific and Production Laboratory № 23, JSC "V. F. Solinov NITS", Moscow, Russia
Roman A. Tatyanin – head of the Scientific and Production Laboratory № 23, JSC "V. F. Solinov NITS", Moscow, Russia
Stepan V. Mironov – deputy head of the Polymer Compositions and Pouring Materials, JSC "V. F. Solinov NITS", Moscow, Russia
Maria A. Artykhina – deputy head of the Scientific and Production Laboratory № 23, JSC "V. F. Solinov NITS", Moscow, Russia
Daniil V. Vinogradov – 1st category engineer-technologist of the Scientific and Production Laboratory № 23, JSC "V. F. Solinov NITS", Moscow, Russia; master’s student, Mendeleev University of Chemical Technology of Russia (MUCTR), Moscow, Russia
Georgy Yu. Shakhgildyan – PhD in Chemistry, Associate Professor, Department of Chemical Technology of Glass and Glass-Ceramics, Mendeleev University of Chemical Technology of Russia (MUCTR), Moscow, Russia
Ekaterina S. Stepicheva – engineer of the Laboratory of Polymer Compositions and Pouring Materials, JSC "V. F. Solinov NITS", Moscow, Russia; master’s student, Sechenov First Moscow State Medical University, Moscow, Russia
Vladimir N. Sigaev – DSc. in Chemistry, Professor, head of the Department of Chemical Technology of Glass and Glass-Ceramics, Mendeleev University of Chemical Technology of Russia (MUCTR), Moscow, Russia
Yuri I. Mashir – Doctor of Technical Sciences, general designer, deputy managing director for science, JSC “V. F. Solinov NITS”, Moscow, Russia
1. Артюхина М. А., Бекмухамедова С. Р., Брест В. А. Конструкционная оптика / под ред. В. Ф. Солинова. М.: АБ «Интер», 2017. 284 с.
2. Солинов Е. Ф., Солинов В. Ф., Бучанов В. В. и др. Применение лазерной технологии для резки стеклоизделий // Стекло и керамика. 2014. Т. 87, № 9. С. 6 – 8. [Solinov E. F., Solinov V. F., Buchanov V. V., et al. Application of laser technology for cutting glass articles // Glass Ceram. 2015. V. 71, No. 9. P. 306 – 308.]
3. Федотов С. С., Липатьева Т. О., Липатьев А. С. и др. Фемтосекундная лазерная сварка стекла и ситалла с существенно различающимися значениями ТКЛР // Стекло и керамика. 2023. Т. 96, № 2. С. 3 – 8. [Fedotov S. S., Lipat’eva T. O., Lipat’ev A. S., et al. Femtosecond laser welding of glass and sitall with substantially different values of the LTEC // Glass Ceram. 2023. V. 80, No. 1. P. 41 – 44.]
4. Пат. на изобр. 473414 C2 РФ, МПК B23K 26/08, B41M 5/24. Способы и системы высокоскоростной и высокомощной лазерной гравировки / Костин Д. Дж., Костин Д. Дж. мл., Костин К. Л.; заявитель ТЕКНОЛАЙНЗ, ЭлЭлСи. № 2010100833/02; заявл. 12.06.2008; опубл. 27.01.2013.
5. Serra P., Piqu? A. Laser-induced forward transfer: fundamentals and applications // Advanced Materials Technologies. 2019. V. 4, No. 1. P. 1800099.
6. Lee C. K. W., Pan Y., Yang R., et al. Laser-induced transfer of functional materials // Topics in Current Chemistry. 2023. V. 381, No. 4. P. 18.
7. Ramos-Velazquez A., Amiaga J., Pankin D., et al. Laser-induced micro-scale polychrome marking of glass materials // Materials Letters. 2023. V. 343. P. 134372.
8. Domakova V., Arbuzova K., Ramos-Velazquez A., et al. Laser-induced backward transfer and laser-induced periodic surface structures: new horizons for visual arts and design // Journal of Laser Micro/Nanoengineering. 2025. V. 20, No. 3. P. 297 – 301.
9. Sobotova L., Badida M. Laser marking as environment technology // Open Engineering. 2017. V. 7, No. 1. P. 303 – 316.
10. ГОСТ 32281.1–2013. Стекло и изделия из него. Определение прочности на изгиб. Основные принципы проведения испытаний. М.: Стандартинформ, 2013. 19 с.
11. Пат. на изобр. 2766210 C1 РФ, МПК B41M 5/24. Способ лазерной маркировки изделий / Бекмухамедова С. Р., Курчатов И. С., Кустов М. Е. и др.; заявитель Акционерное общество «Научно-исследовательский институт технического стекла им. В. Ф. Солинова». № 2021112119; заявл. 28.04.2021; опубл. 09.02.2022.
The article can be purchased
electronic!
PDF format
700 руб
DOI: 10.14489/glc.2026.04.pp.003-010
Article type:
Research Article
Make a request
