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Teirumnieks, Edmunds
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (8/8 displayed)
- 2023INVESTIGATION OF SURFACE ROUGHNESS OF CARBON STEEL MACHINED PARTS AFTER NANOSECOND FIBER LASER MARKING
- 2023Modification of the roughness of 304 stainless steel by laser surface texturing (LST)citations
- 2021THE APPLICATION OF HEMP IN BIOECONOMY
- 2021Numerical modeling and simulation for laser beam welding of ultrafine-grained aluminiumcitations
- 2021INFLUENCE OF THE OVERLAP COEFFICIENT ON THE CONTRAST IN LASER MARKING OF C110W STEEL
- 2021Influence of pulse duration on the process of laser marking of CT80 carbon tool steel productscitations
- 2021INVESTIGATION OF THE INFLUENCE OF THE NUMBER OF REPETITIONS ON THE PROCESS OF LASER MARKING OF HS6-5-2-5 STEEL
- 2017CARBON FIBER AND PLANT FIBER COMPOSITE TECHNOLOGY DEVELOPMENT IN HIGH STRENGH PARTS
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article
Modification of the roughness of 304 stainless steel by laser surface texturing (LST)
Abstract
<jats:title>Abstract</jats:title><jats:p>Surface texturing is one of the most effective approaches to modifying the surface to improve many properties: tribological, corrosion resistance, microhardness and others characteristics of a number of engineering materials. Among the surface texturing techniques developed in recent years, the most widely used method is the laser surface texturing method (LST) due to its high flexibility, superior texturing accuracy and good process controllability and reproducibility. With its rapid development, LST has attracted considerable attention in various industries such as automotive, biomedical and aerospace. The present study considers the changes in roughness in different modes of laser texturing of stainless steel specimens 304. The effects and role of individual laser parameters on the change in roughness are analyzed as a main characteristic of the surface properties of the processed material. Heating and its surface melting is one of the studied effects and its role in changing the roughness. The focus of the study is on the process of laser–material interaction as a function of absorbed energy density, pulse frequency, scan rate, and overlap coefficients leading to different effects of LST parameters. It has been found that increasing the energy density, accompanied by a decrease in the frequency and speed of scanning, can increase the surface roughness.</jats:p>