Laser Beam Machining of Tungsten Alloy: Experimental and Numerical Analysis

Begić-Hajdarević, Đerzija; Bijelonja, Izet

doi:10.3390/met12111863

Cited by 3 publications

(1 citation statement)

References 36 publications

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“…The energy focused in a very small volume determines how the laser interacts with the steel plate. The heat and intense light given off by the laser spot produce the cut [ 51 ]. Laser power between 4100 and 4300 W is sufficient for phase transitions of Hardox 400, causing melting and partial vaporization.…”

Section: Resultsmentioning

confidence: 99%

Study of the Relationship between Entropy and Hardness in Laser Cutting of Hardox Steel

Girdu

Gheorghe

2023

Materials

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The article presents the findings of a study on the machining of 10 mm thick Hardox 400 steel plates using the CO2 laser. The purpose of the investigation was to investigate the relationship between the entropy and the hardness of machined surfaces. For this purpose, a new mathematical model is established to estimate the entropy, and its influence on the hardness is determined. The mathematical model is statistically and experimentally validated. An entropy variation ΔS = −330 mJ/K between 2 K is found, causing a decrease in hardness compared to the standard value. The influences of input parameters (laser power, cutting speed, and auxiliary gas pressure) on hardness are determined. It is demonstrated that the surface hardness is strongly influenced by the auxiliary gas pressure. The combination of laser power P = 4200 W with gas pressure p = 0.45 bar at average cutting speed v = 1400 mm/min leads to a hardness of 38 HRC, extending the life and wear resistance of the cut parts.

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Section: Resultsmentioning

confidence: 99%

Study of the Relationship between Entropy and Hardness in Laser Cutting of Hardox Steel

Girdu

Gheorghe

2023

Materials

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Optimisation of Fiber Laser Cutting of Stainless Steel Using TOPSIS - Shannon Entropy Method

Begic-Hajdarevic,

Muhamedagic,

Cekic

et al. 2024

New Technologies, Development and Application VII

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Systematic review of optimization techniques for laser beam machining

Kharche,

Patil

2024

Eng. Res. Express

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Laser Beam Machining (LBM) has several applications in the aerospace, medical, and automobile domains. Optimization techniques are essential for LBM to increase resource-efficiency and sustainability of the system. The present paper aims to provide a systematic review of the research in the domain of optimization techniques for LBM. A total of 228 research papers published during the last 20 years, from 2003 to 2023, are reviewed. The literature review is classified into three major sections- (i) optimization techniques, (ii) applications of optimization techniques, and (iii) challenges and future directions. The novelty of the present systematic review paper is to provide a direction for future research in the domain of optimization techniques of LBM. As a result of the suggested research, an efficient and sustainable LBM with the required performance will be developed in the shortest possible time.

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Laser Beam Machining of Tungsten Alloy: Experimental and Numerical Analysis

Cited by 3 publications

References 36 publications

Study of the Relationship between Entropy and Hardness in Laser Cutting of Hardox Steel

Study of the Relationship between Entropy and Hardness in Laser Cutting of Hardox Steel

Optimisation of Fiber Laser Cutting of Stainless Steel Using TOPSIS - Shannon Entropy Method

Systematic review of optimization techniques for laser beam machining

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