Experiment and Prediction of Ablation Depth in Excimer Laser Micromachining of Optical Polymer Waveguides

Tamrin, Khairul Fikri; Zakariyah, Shefiu S.; Hossain, Khandaker M. Anwar; Sheikh, Nadeem Ahmed

doi:10.1155/2018/5616432

Cited by 5 publications

(3 citation statements)

References 23 publications

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“…The ablation depth was discovered to decrease with the increase of cutting speed due to less exposure time. 8 , 9 In addition, high cutting speed results in less fiber pullout and minimum HAZ due to reduced matrix disintegration.…”

Section: Introductionmentioning

confidence: 99%

Multi-pass laser cutting of carbon/Kevlar hybrid composite: Prediction of thermal stress, heat-affected zone, and kerf width by thermo-mechanical modeling

Moghadasi

Tamrin

2020

Proceedings of the Institution of Mechanical Engineers, Part L:

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Numerical modeling offers considerable promise to reduce costs associated with trial-and-error process in the manufacturing industry. In laser cutting of fiber-reinforced composites, the developed thermal stress in the cut region has considerable inﬂuence on the application of the machined composite and the end product quality. Nevertheless, measurement of the thermal stress is quite challenging in practice. Here, an uncoupled thermo-mechanical finite element model is developed to accurately predict formation of heat-affected zone, kerf width, thermal field, and thermal residual stress of an anisotropic carbon/Kevlar fiber reinforced composite during multi-pass laser cutting process. A novel approach of element deletion incorporating temperature-dependent Hashin failure criteria and VUMAT subroutine is proposed. The study is carried out using Abaqus interlinked with Fortran compiler to define laser Gaussian beam (DFLUX subroutine) and material removal (VUMAT subroutine) for determining the temperature gradient and cut characteristics, respectively. The numerical results agree well with the experimental scanning electron micrographs of heat-affected zone and kerf width. In addition, residual temperature after subsequent pass results in greater temperature distribution and heat accumulation. It has also been established that the strength of composite gradually decays with the increase of temperature due to stiffness (elastic moduli) degradation in the area of the cutting zone, accelerating damage initiation in both fibers and matrix.

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Section: Introductionmentioning

confidence: 99%

Multi-pass laser cutting of carbon/Kevlar hybrid composite: Prediction of thermal stress, heat-affected zone, and kerf width by thermo-mechanical modeling

Moghadasi

Tamrin

2020

Proceedings of the Institution of Mechanical Engineers, Part L:

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“…In view of this, laser micromachining offers some crucial benefit over other more-established micro-fabrication methods due to its low-cost operation and rapid fabrication [4]- [6]. Suriano et al [7] performed a thorough study of the properties of femtosecond laser-ablated polymer surfaces for microfluidic channel fabrication.…”

Section: Introductionmentioning

confidence: 99%

Fabrication of Flexible Microfluidic Strain Sensor by Laser Micromachining for Hand Motion Tracking

Tamrin¹,

Khalid²,

Rigit³

2020

IJMMM

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Various types of strain sensors have been developed for providing reliable monitoring of human health. Microfluidic strain sensors is favourable for such an application due to its outstanding performance under a variety of three-dimensional deformations on the basis of elastic channel deformation. In this study, we report for the first time laser-machined micro-channels on fabricated epoxy substrate. Fabrication of flexible microfluidic sensor using soft clear epoxy is investigated. A ratio of 100:30 of epoxy resin-to-hardener results in a flexible and elastic epoxy layer. Laser micromachining (ablation) technique at varying parameters is conducted using Taguchi Experimental Design. Low number of passes for both kerf depth and kerf width gives an optimum response, while laser power and laser cutting speed differs for kerf width and kerf depth. Microstructure imaging is carried out using scanning electron microscopy for heat-affected zone examination.

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“…However, predicting the behavior of cooking oil in different engines and working environments is not an easy task. One important aspect is the use of prediction models especially at the planning stage to assess the behavior of tribological applications in finding suitable parametric ranges for better performance [12][13][14]. This approach can mitigate the assessment process complexities with lesser rejections and errors.…”

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confidence: 99%

Extreme Learning Machine in Laser-Assisted Machining Using Waste Palm Cooking Oil

Yasmin¹,

Tamrin²,

Sheikh³

2021

Natural Food Products and Waste Recovery

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Use of lubricating/cutting fluids is crucial in machining processes to reduce friction, alleviate heat accumulation and prolong tool life. To minimize environmental and health impacts, a number of studies using vegetable oil-based cutting fluid have been investigated and reported demonstrating similar performance obtained using commercial cutting fluids. However, massive use of vegetable oil for such purposes would undeniably trigger issues of food security. In order to mitigate food waste, the primary objective of the chapter is to demonstrate the application of waste palm cooking oil as a potential lubricating fluid in laser-assisted machining of metal. By considering kinematic and dynamic viscosities of the waste cooking oil, its effects on surface roughness and tool wear are studied by predicting using extreme learning machine (ELM). The prediction results show that the average errors are only 0.51% and 1.19% for surface roughness and flank wear, respectively, suggesting good agreement between observation and prediction.

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Experiment and Prediction of Ablation Depth in Excimer Laser Micromachining of Optical Polymer Waveguides

Cited by 5 publications

References 23 publications

Multi-pass laser cutting of carbon/Kevlar hybrid composite: Prediction of thermal stress, heat-affected zone, and kerf width by thermo-mechanical modeling

Multi-pass laser cutting of carbon/Kevlar hybrid composite: Prediction of thermal stress, heat-affected zone, and kerf width by thermo-mechanical modeling

Fabrication of Flexible Microfluidic Strain Sensor by Laser Micromachining for Hand Motion Tracking

Extreme Learning Machine in Laser-Assisted Machining Using Waste Palm Cooking Oil

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