A comparative study on the surface integrity of plastic mold steel due to electric discharge machining

Ekmekçi, Bülent; Elkoca, Oktay; Erden, Abdülkadir

doi:10.1007/s11663-005-0011-6

Cited by 45 publications

(19 citation statements)

References 35 publications

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“…[14] The crack density is inversely proportional to the thermal conductivity of the work material, [15] and as the content of carbon within the white layer increases from the dielectric liquid, surface crack intensity increases very rapidly. [16] Surface cracks initiate from the surface and propagate in a vertical direction toward the parent material. While the majority of these cracks terminate within the recast layer, or at the interface between the recast layer and the base material in severe instances, cracks may penetrate into the parent material itself.…”

Section: Introductionmentioning

confidence: 99%

White Layer Composition, Heat Treatment, and Crack Formation in Electric Discharge Machining Process

Ekmekçi

2009

Metall Mater Trans B

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BÜ LENT EKMEKCICharacteristics of electric discharge machined (EDM) surfaces of normalized, quenched, and quenched and tempered-treated steels in kerosene and deionized-water dielectric liquids are investigated. Optical microscopy, scanning electron microscopy (SEM) and X-ray diffractometry are employed to analyze the machined surface. Surface cracks are examined in terms of white layer composition, heat treatment of the workpiece material, and operational parameters used, such as average discharge current and pulse-on duration. The present results reveal that base material properties and white layer composition have a distinctive function on crack formation that results in different crack network layouts on the surface and penetration depths in the substrate. Surface cracks, which initiate at the surface, travel down perpendicularly toward the interferential zone, and terminate at this interference, are mainly formed due to an increase in nonhomogeneities of metallurgical phases within the white layer. Such cracks are usually encountered on the surfaces when machining is performed in a hydrocarbon-based dielectric liquid using high pulse-on duration and low average discharge current. On the other hand, penetrating cracks, which penetrate the entire white layer thickness to an extent into the parent material, are mainly formed due to contraction of the recast structure joined to the circumferential edge of a crater rim during solidification. This type of crack is common when machining is performed in deionized water and the work material is brittle. Crack penetration depth is found to be proportional to the used pulse energy, and its path has a tendency to form parallel cracks to the machined surface at decreased pulse-on duration.

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Section: Introductionmentioning

confidence: 99%

White Layer Composition, Heat Treatment, and Crack Formation in Electric Discharge Machining Process

Ekmekçi

2009

Metall Mater Trans B

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“…During machining of Ti-6A-4V, TiClayer formed with kerosene and TiO layer with distilled water distilled water dielectric fluids 12 . It is also found that machining with de-ionized water the intensity of micro-cracks are less in the white-layer than the base material 13 .…”

Section: Internationalmentioning

confidence: 92%

Surface Morphology of Die-Steel Machined with Al Powder Mixed Distilled Water and Kerosene in Edm A Comparison

2018

IJCTR

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:In this paper, an attempt has been made to compare the effect of Al powder mixed distilled water and kerosene dielectric fluids with respect to white-layer thickness (WLT) and surface morphology. The work and tool electrode materials used are W300 die-steel and electrolytic copper respectively. Pulse peak current, pulse on-time and concentration of Al powder are taken as the process parameters to study white-layer thickness. The experiments are planned using face centred central composite design procedure (FCCCD). From the experimental results it is found that, better surface morphology obtained at 4 g/l of Al in kerosene at high peak current of 18 A.

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“…The presence of high crack density is not desirable because it leads early product failure. Investigation of EDM parameters showed that higher pulse-on duration increased both the average white layer thickness and the induced stress (Lee and Tai, 2003;Ekmekci et al, 2005). These two conditions tend to promote crack formation.…”

Section: Surface Roughnessmentioning

confidence: 96%

Micro Eletro Discharge Milling for Microfabrication

Ali¹,

Mehfuz²,

Khan³

et al. 2012

Micromachining Techniques for Fabrication of Micro and Nano Structures

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A comparative study on the surface integrity of plastic mold steel due to electric discharge machining

Cited by 45 publications

References 35 publications

White Layer Composition, Heat Treatment, and Crack Formation in Electric Discharge Machining Process

White Layer Composition, Heat Treatment, and Crack Formation in Electric Discharge Machining Process

Surface Morphology of Die-Steel Machined with Al Powder Mixed Distilled Water and Kerosene in Edm A Comparison

Micro Eletro Discharge Milling for Microfabrication

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