Characterization of laser beam interaction with carbon materials

Janićijević, Milovan M.; Srećković, Milesa; Kaluđerović, Branka; Bojanić, Slobodan; Družijanic, Dragan; Dinulović, Mirko; Kovačević, A.

doi:10.1088/1054-660x/23/5/056002

Cited by 8 publications

(6 citation statements)

References 9 publications

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“…Laser methods of PMMA treatment are considered in numerous articles from various points of view: simulations, experiments with different types of laser devices, industrial applications, material processing for optical components, cutting and shaping of panels, tropheys, fiber applications, etc. [3][4][5][6][7][8][9][10][19][20][21][22][23][24][25][26][27]. The part of the theory used in these descriptions is applicable also for the other transparent materials, composites, glassy and plastic materials.…”

Section: Discussionmentioning

confidence: 99%

“…Optical properties, including the wellknown numbers (Re, Nu, Pr) from fluids dynamics have an important role for characterization the laser processing of PMMA [17][18][19][20][21][22][23]. Some other advanced surface treatments, like high frequency (HF) induction, and electron-beam irradiation are in competitions with laser processing of PMMA, es pecially for its applications as chamber or windows material.…”

Section: Introductionmentioning

confidence: 99%

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Laser beam drilling and cutting of PMMA

Srećković¹,

Karastojković²,

Janićijević³

et al. 2017

Min Metal Eng Bor

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Due to its excellent mechanical, chemical and optical properties, also on fatigue, polymethilmetacrylate (PMMA) is widely used for many purposes. PMMA has a reputation as a material that cannot be machined well, but, its elasticity and toughness enable its shaping by the deformation processes. Laser drilling and cutting are also available techniques for PMMA sheets shaping, used when both mechanical and optical PMMA properties must be preserved. In this work, the influence of CO 2 laser cutting/drilling on transparent and coloured PMMA surfaces is investigated, as well as by the other laser systems. The cut surfaces were investigated by a light microscopy and, on those surfaces, the average surface roughness R a was measured. The material zone affectted by the laser beam during the cutting process was monitored by a thermal imaging, and theoretical simulations of temperature distribution in this area were performed using the various versions of COM-SOL packages.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Laser beam drilling and cutting of PMMA

Srećković¹,

Karastojković²,

Janićijević³

et al. 2017

Min Metal Eng Bor

Self Cite

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“…modul za transport toplote u čvrstim telima. Ovaj modul obuhvata razmenu toplote kondukcijom [22,23]. 3D model prostorne raspodele je simuliran za če-tvrtaste pločice od mesinga dimenzija 7,5x3x0,05 cm.…”

Section: Verifikacija Rezultata Numeričkom Metodomunclassified

Security optimization of artefacts laser cleaning

Polić¹,

Ristić²,

Radojkovic³

et al. 2017

Tehnika

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“…Activated carbon cloth modifications initiated by pulsed transversely excited atmospheric CO 2 (TEA CO 2 ) laser radiation (pulse intensities from 0.5 to 28 MW/cm 2 ) depend on the cloth adsorption characteristics [6]. Simulation of the heating effects for the exposure of carbon textile materials and C/C composite to alexandrite and Nd 3+ :YAG (yttrium aluminum garnet) laser radiation but under different laser working regimes (mean power 0.2--6.5 kW), have also been examined [7].…”

mentioning

confidence: 99%

“…The possible use of laser for processing of such materials is one of the motivations for experimental research. Depending on the laser working conditions as well as the complexity of the carbon based material, many different processes can be provoked [10,11]. Often, a distribution of thermal processing is a reliable starting point for descriptions of laser beam-material interaction.…”

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confidence: 99%

Evaluation of laser beam interaction with carbon based material - glassy carbon

Janićijević¹,

Srećković

Kaludjerovic

et al. 2015

CI&CEQ

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Article Highlights• Interaction of glassy carbon with Nd 3+ :YAG laser beam of various energy densities were investigated • Damage morphology analysis has shown that damage morphology depends on the energy density • The Image analysis have applied for obtaining quantitative description of the damage topology • Numerical simulation of glassy carbon interaction with laser was performed by COMSOL Multiphysics • Numerical simulation was based on thermal model and FEM method Abstract Laser beam interaction with carbon based material (glassy carbon) is analyzed in this paper. A Nd 3+ :YAG laser beam (1.06 μm, i.e., near infrared range (NIR)) in ms regime with various energy densities is used. In all experiments, provided in applied working regimes, surface damages have occurred. The results of laser damages are analyzed by light and scanning electron microscopy (SEM). Image J software is used for quantitative analysis of generated damages based on micrographs obtained by light and SEM microscopes. Temperature distribution in the exposed samples is evaluated by numerical simulations based on COMSOL Multiphysics 3.5 software in a limited energy range.Keywords: laser, interaction, glassy carbon based material, quantitative analysis, numerical simulation.Carbon based modern materials in practice can be found in a number of types [1]. Various arrangements of microstructure domains, ordered and disordered, are produced in commercial or laboratory samples, leading to design of carbon materials of different characteristics. The new technological processes make possibility for designing and producing materials with desired mechanical, thermal, electrical, and other properties [2,3]. Laser interaction with well-known graphite -and diamond-like materials remains an unresolved issue. Recently, carbon active materials, carbon nanotubes, 60 C and carbon composites, have been attracting attention. Fabrics and generally fiberCorrespondence: P. Jovanić,

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Characterization of laser beam interaction with carbon materials

Cited by 8 publications

References 9 publications

Laser beam drilling and cutting of PMMA

Laser beam drilling and cutting of PMMA

Security optimization of artefacts laser cleaning

Evaluation of laser beam interaction with carbon based material - glassy carbon

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