Optimization of Electrical Discharge Machining Parameters of Sisic Through Response Surface Methodology

Aliyu, Aliyu M.; Rohani, Jafri Mohd; Rani, Ahmad Majdi Abdul; Musa, Hamidon

doi:10.11113/jt.v79.7622

Cited by 5 publications

(2 citation statements)

References 20 publications

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“…They also employed PMEDM using zinc powder to improve the surface of a biodegradable magnesium alloy. Abdul-Rani et al [42,43] employed nano-aluminum in PMEDM to modify a high-grade Ti alloy for biomedical applications. Abdu Aliyu et al [24,27,44] coated the surface of Zr with hydroxyapatite for biomedical applications.…”

Section: Evolution Of Edm Applicationsmentioning

confidence: 99%

A Review of Electrode Manufacturing Methods for Electrical Discharge Machining: Current Status and Future Perspectives for Surface Alloying

Garba,

Abdul-Rani,

Yunus

et al. 2023

Machines

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In electrical discharge machining (EDM), the tool electrode is one of the substantial components of the system, and it ensures the success or failure of the EDM process. The electrode’s role is to conduct electrical charges and erode the workpiece to the desired shape. Different electrode materials have different impacts on machining. Certain electrode materials remove metal quickly but wear out rapidly, while others degrade slowly but the material removal is too slow. The choice of the electrode has an influence on both the mechanical properties, such as metal removal rate (MRR), wear rate, surface finish, surface modification and machinability, and the electrical properties, such as sparking initiation, time lag, gap contamination and process stability. There are factors to consider when fabricating an electrode, which include the type of workpiece materials, the metallurgical alloying of the materials, the choice of fabrication techniques, the intended use of the electrode, and material cost. Considerable challenges in EDM electrode fabrication have been reported, which include excessive tool wear for green compact electrodes, high toughness for sintered electrodes, and poor rigidity for additively manufactured electrodes. To address these issues, researchers have explored different manufacturing methods, such as casting, conventional machining, electrodeposition, powder metallurgy and additive manufacturing. In this paper, the various techniques attempted and adopted in EDM electrode manufacturing are analyzed and discussed. This paper also sought to give insight into EDM, its various forms, the dielectric fluid’s properties, EDM electrode’s size and shape, the effects of the electrode on the EDM process, material removal, electrode wear, present technologies for electrode fabrication, and the limitations of these technologies. Finally, directions for future research are highlighted.

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Section: Evolution Of Edm Applicationsmentioning

confidence: 99%

A Review of Electrode Manufacturing Methods for Electrical Discharge Machining: Current Status and Future Perspectives for Surface Alloying

Garba,

Abdul-Rani,

Yunus

et al. 2023

Machines

View full text Add to dashboard Cite

show abstract

“…The application of EDM in the production of mold and dies have been largely documented [10]. In an attempt to improve the performance of the EDM process, the EDM input parameters were optimized [11,12]. However, the addition of micro/nano size powder such as aluminium, chromium, SiC and graphite into the dielectric fluids greatly improved the machining performance [13,14].…”

Section: Introductionmentioning

confidence: 99%

Hydroxyapatite Electro Discharge Coating of Zr-Based Bulk Metallic Glass for Potential Orthopedic Application

Aliyu

Abdul-Rani

Ginta

et al. 2019

KEM

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In the past, Electro Discharge Machining (EDM) process was well known in cutting extremely hard materials and fabricating complex shapes. Recently, EDM process has been hybridized to not only shape, but also coats the surface of workpiece material. In this study, the deposition of hard carbide and calcium-based oxides on the Zr-based bulk metallic glass (BMG) using hydroxyapatite mixed electro discharge coating (HAm-EDC) have been investigated. The aim is to enhance the biocompatibility and cell adhesion of the BMG as a potential implant. The chemical composition, morphology and thickness of the coated surface were characterized through Optical Microscope, Scanning Electron Microscopy (SEM), X-ray Spectroscopy (EDS) and X-ray Diffraction (XRD). Major hydroxyapatite elemental composition (Ca, P, O), carbides (ZrC, TiC) and oxides (ZrO, CaZrO3) were formed on the treated BMG surface. A coating of about 23 µm thick was achieved. The addition of hydroxyapatite powder in the dielectric fluid enhances the Zr-based BMG surface quality by reducing the surface cracks and the crater size.

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Opportunities and Challenges in Nanoparticles Formation by Electrical Discharge Machining

Khilji

Pathak

Saffe

et al. 2021

Lecture Notes in Mechanical Engineering

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Optimization of Electrical Discharge Machining Parameters of Sisic Through Response Surface Methodology

Cited by 5 publications

References 20 publications

A Review of Electrode Manufacturing Methods for Electrical Discharge Machining: Current Status and Future Perspectives for Surface Alloying

A Review of Electrode Manufacturing Methods for Electrical Discharge Machining: Current Status and Future Perspectives for Surface Alloying

Hydroxyapatite Electro Discharge Coating of Zr-Based Bulk Metallic Glass for Potential Orthopedic Application

Opportunities and Challenges in Nanoparticles Formation by Electrical Discharge Machining

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