Yulia Karlagina scite author profile

A technology of laser-induced coloration of metals by surface oxidation is demonstrated. Each color of the oxide film corresponds to a technologic chromacity coefficient, which takes into account the temperature of the sample after exposure by sequence of laser pulses with nanosecond duration and effective time of action. The coefficient can be used for the calculation of laser exposure regimes for the development of a specific color on the metal. A correlation between the composition of the films obtained on the surface of stainless steel AISI 304 and commercial titanium Grade 2 and its color and chromacity coordinates is shown.

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Development of complete color palette based on spectrophotometric measurements of steel oxidation results for enhancement of color laser marking technology

Veiko

Одинцова

Gorbunova

et al. 2016

Materials & Design

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Controlled nanostructures formation on stainless steel by short laser pulses for products protection against falsification

et al. 2018

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The coloration of stainless steel surface due to the formation of spatially periodic structures induced by laser pulses of nanosecond duration is demonstrated. The period of microstructures corresponds to the laser wavelength, and their orientation angle depends on the adjustment of laser polarization. The marking algorithm for the development of authentication patterns is presented. Such patterns provide several levels of protection against falsification (visual, colorimetric and structural) along with high recording speed and capability of automated reading.

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Wetting angle stability of steel surface structures after laser treatment

et al. 2020

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In this work, we have used a nanosecond pulsed fiber laser to modify the wettability characteristics of AISI 430 steel. For this, various surface morphologies were created on the samples by laser irradiation with different overlapping and intensity parameters. Immediately upon laser treatment, all the structured samples acquired either hydrophilic or superhydrophilic wetting angles. All the samples were also analyzed with XRD. Then, laser-treated samples were kept in ambient air and/or low-temperature annealing was applied to reach hydrophobic surface properties. Interestingly, these surfaces returned back practically to their initial wetting state by cleaning in an ultrasonic bath. The obtained results are analyzed based on the existing wettability models.

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Metal surface coloration by oxide periodic structures formed with nanosecond laser pulses

Veiko

Karlagina

Moskvin

et al. 2017

Optics and Lasers in Engineering

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Yulia Karlagina

Controlled oxide films formation by nanosecond laser pulses for color marking

Development of complete color palette based on spectrophotometric measurements of steel oxidation results for enhancement of color laser marking technology

Controlled nanostructures formation on stainless steel by short laser pulses for products protection against falsification

Wetting angle stability of steel surface structures after laser treatment

Metal surface coloration by oxide periodic structures formed with nanosecond laser pulses

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