FIELD: automobile industry. SUBSTANCE: marking of triplex glasses is conducted on boundary of glass-polymer separation with laser pulse radiation with wave length λ-lying within range of transparency of glass material, pulse duration less than 1μs and radiation pulse power lying within Pdest>P≥ Pthresh, where Pthresh is threshold power of process of polycrystallization on boundary of glass-polymer separation reducing transparency of glass in radiation zone and Pdest is optical power of glass destruction. EFFECT: facilitated marking process.
| Title | Year | Author | Number |
|---|---|---|---|
| METHOD OF THE LASER FORMATION OF THE IMAGES IN THE OPTICALLY TRANSPARENT SOLID MEDIUM | 2003 |
|
RU2295506C2 |
| METHOD OF MARKING GLASS ARTICLES | 0 |
|
SU1620428A1 |
| 0 |
|
SU1670655A1 | |
| METHOD OF COLOUR MARKING OF METAL OR ITS ALLOY SURFACE WITH LASER PULSED RADIATION | 2015 |
|
RU2616703C2 |
| METHOD OF GENERATING BROADBAND HIGH-BRIGHTNESS OPTICAL RADIATION | 2014 |
|
RU2571433C1 |
| METHOD MEASURING ABSORBED DOSE OF IONIZING RADIATION AND DEVICE FOR ITS IMPLEMENTATION | 1996 |
|
RU2093859C1 |
| METHOD OF PRODUCING COLORED IMAGES IN TRANSPARENT GLASSES | 2005 |
|
RU2288196C1 |
| METHOD FOR RECORDING INFORMATION ON CHALCOGENIDE FILM | 2005 |
|
RU2298839C1 |
| SYSTEM AND METHOD FOR RECORDING BRAGG GRATING | 2005 |
|
RU2297655C2 |
| METHOD OF LASER PROCESSING OF TRANSPARENT BRITTLE MATERIAL AND DEVICE FOR ITS IMPLEMENTATION | 2019 |
|
RU2720791C1 |
