Recast layer and heat-affected zone structure of ultra-fined grained low-carbon steel machined by electrical discharge machining

Mahdieh, Mohammad Sajjad

doi:10.1177/0954405419889202

Cited by 18 publications

(6 citation statements)

References 45 publications

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“…It leads to microstructural changes, grain growth, alternation of hardness, initiation of micro-cracks and changing the composition leading to deterioration of the surface integrity. 19 From Figure 12(e), it can be seen that the recast layer is highest on the surface of the holes drilled by using the solid electrode. This is because there is no channel for debris transportation.…”

Section: Influence Of the Helix Angle On The Spread Of The Recast Layermentioning

confidence: 97%

Effect of micro double helical grooved tools on performance of electric discharge drilling of Ti-6Al-4V

Krupa

Samuel

2021

Proceedings of the Institution of Mechanical Engineers, Part B:

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Machining of complex features and holes on superalloys is a topic of both industrial and academic interest. Though the demand for high aspect ratio holes on Ti-6Al-4V is high in aerospace, biomedical and chemical industries, machining the same is very challenging due to the low thermal conductivity and debris accumulation in the machining zone. The present-day methods of hole drilling by unconventional methods like Electric Discharge Machining (EDM) make use of electrodes with poor flushing capabilities. Hence the motivation of the present work is to develop a method to modify the geometry of Electric Discharge Drilling (EDD) tools in order to enhance debris removal. For the first time an attempt has been made to machine micro double-helical grooves on EDD tools in a single pass. Solid, single-helical and double-helical electrodes are developed and through-holes are drilled on a Ti-6Al-4V workpiece. A comparative analysis of the performance of these three types of tools with respect to the machining time, electrode wear rate and hole quality is carried out. From Computational Fluid Dynamics (CFD) simulations it is seen that the double-helical grooved tool is superior in debris removal. The best values of the machining time of 183.33 s, overcut of 2.19 mm, hole taper angle of 7.93° and area of recast layer of 6.66 mm2 are obtained on the holes machined using double-helical electrodes. The mentioned tool has the potential to overcome the problem of debris removal in high aspect ratio hole drilling and surpass the present-day electric discharge drilling tools.

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Section: Influence Of the Helix Angle On The Spread Of The Recast Layermentioning

confidence: 97%

Effect of micro double helical grooved tools on performance of electric discharge drilling of Ti-6Al-4V

Krupa

Samuel

2021

Proceedings of the Institution of Mechanical Engineers, Part B:

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“…While Newton et al 13 reported the impact of process parameters on the recast layer in WEDM of Inconel 718. In another study, Mahdieh 14 investigated the microstructural changes in the specimen processed by the electrical discharge machining, he concluded that the processing of coarse grain samples resulted in a relatively thicker recast layer, whereas the ultra-fine grain samples depicted the heat-affected zone. Whereas, Sharma et al 15 reported the effect of process parameters on the process efficiency and dimensional shift for WEDM operation of porous nickel-titanium (Ni40Ti60) alloy.…”

Section: Introductionmentioning

confidence: 99%

Data-driven probabilistic performance of Wire EDM: A machine learning based approach

Saha

Gupta

Maity

et al. 2021

Proceedings of the Institution of Mechanical Engineers, Part B:

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The wire electric discharge machining (WEDM) is a potential alternative over the conventional machining methods, in terms of accuracy and ease in producing intricate shapes. However, the WEDM process parameters are exposed to unavoidable and unknown sources of uncertainties, following their inevitable influence over the process performance features. Thus, in the present work, we quantified the role of parametric uncertainty on the performance of the WEDM process. To this end, we used the practically relevant noisy experimental dataset to construct the four different machine learning (ML) models (linear regression, regression trees, support vector machines, and Gaussian process regression) and compared their goodness of fit based on the corresponding R2 and RMSE values. We further validated the prediction capability of the tested models by performing the error analysis. The model with the highest computational efficiency among the tested models is then used to perform data-driven uncertainty quantification and sensitivity analysis. The findings of the present article suggest that the pulse on time ( Ton) and peak current (IP) are the most sensitive parameters that influence the performance measures of the WEDM process. In this way, the current study achieves two goals: first, it proposes a predictive framework for determining the performance features of WEDM for unknown design points, and second, it reports data-driven uncertainty analysis in the light of parametric perturbations. The observations reported in the present article provide comprehensive computational insights into the performance characteristics of the WEDM process.

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“…RLT increased with discharge energy (Ee) increase. The organization of the main phase on the white layer includes martensite and austenite [7]. HAZ is a material layer formed by the phase transition from the substrate, the phase transition temperature is the temperature of the electric spark that has been reduced by transmission through the white layer.…”

Section: Introductionmentioning

confidence: 99%

Influence of Process Parameters on the Microstructural Characteristics and Mechanical Properties of Recast Layer Thickness Coating on Die Steel Machined Surface after Electrical Discharge Machining

Huu

Dong

Jatti

et al. 2021

IJE

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Recast layer and heat-affected zone structure of ultra-fined grained low-carbon steel machined by electrical discharge machining

Cited by 18 publications

References 45 publications

Effect of micro double helical grooved tools on performance of electric discharge drilling of Ti-6Al-4V

Effect of micro double helical grooved tools on performance of electric discharge drilling of Ti-6Al-4V

Data-driven probabilistic performance of Wire EDM: A machine learning based approach

Influence of Process Parameters on the Microstructural Characteristics and Mechanical Properties of Recast Layer Thickness Coating on Die Steel Machined Surface after Electrical Discharge Machining

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