Research of Laser Marking and Engraving on Brass Alloy 260

Kļaviņš, Dainis; Lazov, Lyubomir; Pacejs, Antons; Rēvalds, Ritvars; Zaicevs, Edgars

doi:10.17770/etr2019vol3.4167

Cited by 3 publications

(3 citation statements)

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“…Fig. 7 shows a thermally treated maple sample processed at a temperature of 214°C with five cuts, obtained using a power density qS = 8.31 × 10 5 W/cm 2 Dzintars Rāviņš et al The impact of CO2 laser power and scanning speed on various wood and thermowood samples and a scanning speed v = 50 mm/s. The cut width was measured, and the average width calculated is d = 0,35 mm.…”

Section: Methodsmentioning

confidence: 99%

“…Laser technologies are widely used in various industries and offer many advantages as they can offer a precise and efficient way to process materials and perform various functions. Here are some industries where laser technology is common: manufacturing and engineering, metalworking, materials processing, electronics, optics, science, medicine, military industry and much more [1], [2], [3]. Laser engraving and marking technologies are used to create precise and aesthetic graphic designs on various wood materials [4].…”

Section: Introductionmentioning

confidence: 99%

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The Impact of Co2 Laser Power and Scanning Speed on Various Wood and Thermowood Samples

Rāviņš,

Adijāns,

Yankov

et al. 2024

ETR

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In this study, the impact of CO2 laser engraving and scanning on various types of wood before and after thermal treatment is investigated. An infrared CO2 laser with a wavelength of 10640 nm is used in the study for engraving various wood samples before and after thermal treatment at a specific processing temperature of 214°C. All samples had a similar moisture content - approximately 8%. The engraving depth and width were measured for each wood sample. The findings reveal that thermal pre-treatment exert a discernible influence on the efficacy of laser engraving, and the engraving depth is notably influenced by the particular wood species involved. Consequently, the study offers a platform for assessing the optimization of laser engraving parameters applicable to different wood types and thermally modified wood, thereby facilitating the enhancement of product quality through judicious parameter selection.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

The Impact of Co2 Laser Power and Scanning Speed on Various Wood and Thermowood Samples

Rāviņš,

Adijāns,

Yankov

et al. 2024

ETR

View full text Add to dashboard Cite

show abstract

“…In recent years, the application of lasers in various industries is increasing, such as mechanical engineering, energy and electronics [1,2]. Now, it has been widely used in research in the field of laser printing of metallic and nonmetallic materials [3][4][5][6][7][8][9]. This will create a strong development of laser technology in the next few years in the field of billboards and materials, replacing classic production technologies.…”

Section: Introductionmentioning

confidence: 99%

Determination of the optimal mode of laser surface marking of aluminium composite panels with CO2 laser

Yankov¹,

Minev²,

Tonchev³

et al. 2022

tribomat

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This research examines an approach for finding the optimal modes of laser treatment with CO2 laser on advertisement boards made of aluminium composite panels. To achieve the optimal area of the processing mode, an experimental methodology has been developed and an experiment has been planned for finding the limits at the given parameters of the speed and power to obtain an optimisation model. The optimal results are obtained at speeds from 100 to 200 mm/s along the x and y operative axes, as well as the power limits from 5 to 7.5 W to obtain a clear and well-defined image. The defined theoretical mode, obtained because of multicriteria optimisation, is implemented in practice. It is defined as having the relatively best quality image obtained in the shortest time.

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Real-Time Monitoring and Control of Ultra-Fast Laser Engraving Process Utilizing Spectrometer

et al. 2022

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The objective of this study was to develop a novel real-time monitoring and control method for ultra-fast laser scribing processes utilizing spectrometer. Adjustment of laser process parameters such as laser power with high precision in real-time is critical in the laser engraving process due to the premium quality and speed requirements of the process. An online monitoring system was established using the Ocean Optics spectrometer, IPG ytterbium pulsed laser, and PXIe-8880 industrial computer. An algorithm for realtime control of the laser scribing process was developed based on the monitoring outcomes using LabVIEW® software. Experimental methods were performed to evaluate the reliability of the developed monitoring system and control algorithm. The sensitivity of the spectrometer was assessed by changing laser power, pulse length, and focal point position. A workpiece consisting of two different metals, including stainless steel SS304L and steel S355, was used to evaluate the performance of the developed algorithm when scribing moved from one material to another. Instant accurate setting of the laser power based on the variations in intensities of metals from 750 AU to 1400 AU validated the reliability of the algorithm.

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Research of Laser Marking and Engraving on Brass Alloy 260

Cited by 3 publications

References 0 publications

The Impact of Co2 Laser Power and Scanning Speed on Various Wood and Thermowood Samples

The Impact of Co2 Laser Power and Scanning Speed on Various Wood and Thermowood Samples

Determination of the optimal mode of laser surface marking of aluminium composite panels with CO2 laser

Real-Time Monitoring and Control of Ultra-Fast Laser Engraving Process Utilizing Spectrometer

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