Effect of different electrolytes on electrochemical micro-machining of SS 316L

Kumaar, J.R. Vinod; Thanigaivelan, R.; Soundarrajan, M.

doi:10.2298/ciceq211204007v

Cited by 4 publications

(1 citation statement)

References 31 publications

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“…Due to its crystalline nature the copper material produces more burrs while machining through conventional technology due to the tool structure, rotational speed and cutting forces [1,2]. On the other hand, among various techniques in unconventional methods, EMM provides right solutions for the problems stated above due to its advantages characteristics such as non-contact machining, no tool wear, high precision and excellent surface finish etc., [3,4]. In the view of enhancing the machining rate, researchers worldwide followed various strategies in EMM.…”

Section: Introductionmentioning

confidence: 99%

Enhancing MRR and accuracy with magnetized graphite tool in electrochemical micromachining of copper

Palaniswamy¹,

Seeniappan²,

Thanigaivelan

et al. 2023

CI&CEQ

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Micro hole is the fundamental feature found in any device/components. Hence this paper aims to produces the micro holes using electrochemical micromachining (EMM). The existing machining techniques in EMM for creating micro holes are associated with more overcut (OC). Hence, it is very essential to reduce OC and enhance the machining rate (MR). This paper aspires to investigate the effect of graphite electrode with magnetic force on copper plate. Four different tools namely electromagnetic graphite tool (EMGT), permanent magnet graphite tool (PMGT), graphite tool and stainless steel (SS) tool are employed for these experiments. The major influencing factors are machining voltage in volts, duty cycle in % and electrolyte concentration in g/l was considered on MR and OC. The results exposed that EMGT, PMGT and graphite electrodes produce MR of 106.4%, 74.6 % and 44.5 % over SS tool at parameter level of 23 g/l, 15 V, and 85% respectively. Graphite and EMGT electrode resulting in 11.9% and 3.41 % reduced OC respectively than SS tool at parameter level of 8V, 95% and 28 g/l. Additionally, scanning electron microscope (SEM) picture examination is conducted to identify the magnetic field effect on the work surface.

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Section: Introductionmentioning

confidence: 99%

Enhancing MRR and accuracy with magnetized graphite tool in electrochemical micromachining of copper

Palaniswamy¹,

Seeniappan²,

Thanigaivelan

et al. 2023

CI&CEQ

View full text Add to dashboard Cite

show abstract

Performance Investigation of Electrochemical Micro Machining Process Using Salt Free Composite Electrolytes

Simon,

Paramasivam,

Manickam

et al. 2024

Russ J Appl Chem

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EFFECT OF PROCESS PARAMETERS ON THE PERFORMANCE OF POWDER MIXED EDM OF Ni-BASED SUPERALLOYS: A REVIEW

Uddin¹,

Barma²,

Majumder³

2023

Surf. Rev. Lett.

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Ni-based superalloys fall under the category of difficulty in machining type material owing to their poor thermal conductivity and high strength at extreme temperatures. Machining such materials using the traditional approach is a tremendously difficult task. On the other hand, EDM, one of the most sophisticated electro-thermal manufacturing processes, is used to machine such materials. It is a well-known non-traditional machining process for generating parts that require accuracy, have complex shapes, and are small in size. However, the use of EDM in Ni-based superalloys has some disadvantages like poor surface finish and low material removal rate. So, to alleviate these disadvantages, researchers introduced powder mixed dielectric fluid in the EDM process. Further, the performance of this technique has been enhanced by studying the effect of various nano/micro-size particles and their concentrations in the dielectric medium. In this paper, the authors have reviewed the impact of non-electrical and electrical process parameters on the output responses when machining Ni-based superalloys using powder mixed EDM. The challenges faced during the conventional machining of Ni-based superalloys and the mechanism proposed for powder mixed EDM, especially under the influence of suspended powders into the dielectric medium have also been presented in this paper. Finally, future research areas of powder mixed EDM of Ni-based Superalloys, such as (i) its modelling and simulation and (ii) the effect of tool motion and powder properties on its performance, are discussed in brief.

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Effect of different electrolytes on electrochemical micro-machining of SS 316L

Cited by 4 publications

References 31 publications

Enhancing MRR and accuracy with magnetized graphite tool in electrochemical micromachining of copper

Enhancing MRR and accuracy with magnetized graphite tool in electrochemical micromachining of copper

Performance Investigation of Electrochemical Micro Machining Process Using Salt Free Composite Electrolytes

EFFECT OF PROCESS PARAMETERS ON THE PERFORMANCE OF POWDER MIXED EDM OF Ni-BASED SUPERALLOYS: A REVIEW

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