Precision machining of small holes by the hybrid process of electrochemical removal and grinding

Zhu, Daiyin; Zeng, Yongbin; Xu, Zhengyang; Zhang, X.Y.

doi:10.1016/j.cirp.2011.03.130

Cited by 98 publications

(41 citation statements)

References 7 publications

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“…have been demonstrated to be very successful [14][15][16]. To overcome these limitations and to make EMM more effective by achieving controlled machining within shorter time, hybridization of anodic dissolution with various other metal removal processes is needed.…”

Section: Hybrid Emmmentioning

confidence: 99%

Improvement of Machining Accuracy

Bhattacharyya

2015

Electrochemical Micromachining for Nanofabrication, MEMS and Nanotechnology

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Section: Hybrid Emmmentioning

confidence: 99%

Improvement of Machining Accuracy

Bhattacharyya

2015

Electrochemical Micromachining for Nanofabrication, MEMS and Nanotechnology

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“…Nowadays, alternative technologies have been developed, largely reducing the application of this process because of the high complexity of process control and environmental concerns. Figure 8.13 (right) shows another application, the precise machining of small holes (Zhu et al 2011). The grind-hardening process utilizes the induced heat of the grinding process for local surface hardening on the workpiece.…”

Section: Combinations With Grindingmentioning

confidence: 99%

Productivity Improvement Through the Application of Hybrid Processes

Lauwers

Klocke

Klink

et al. 2014

Lecture Notes in Production Engineering

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Many parts require high strength materials, exhibiting high temperatures or where formability should be reduced, requiring new processing technologies. The application of hybrid manufacturing processes can answer the needs. This paper gives first a classification of hybrid manufacturing processes, followed by a description of various productivity improvements. The latter is also demonstrated by various examples in cutting, grinding, forming and chemical & physical processes like EDM, ECM and laser.

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“…However, the electrolyte contamination was unavoidable. Zhu et al (2011) investigated the mechanical-electrochemical machining of small holes by ECM and grinding. Electrochemical machining is also used in the in-process machining of grinding wheels.…”

Section: Mechanical Machining and Ecmmentioning

confidence: 99%

A review of hybrid manufacturing processes – state of the art and future perspectives

Zhu

Dhokia

Nassehi

et al. 2013

International Journal of Computer Integrated Manufacturing

253

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Today, hybrid manufacturing technology has drawn significant interests from both academia and industry due to the capability to make products in a more efficient and productive way. Although there is no specific consensus on the definition of the term 'hybrid processes', researchers have explored a number of approaches to combine different manufacturing processes with the similar objectives of improving surface integrity, increasing material removal rate, reducing tool wear, reducing production time and extending application areas. Thus, hybrid processes open up new opportunities and applications for manufacturing various components which are not able to be produced economically by processes on their own. This review paper starts with the classification of current manufacturing processes based on processes being defined as additive, subtractive, transformative, joining and dividing. Definitions of hybrid processes from other researchers in the literature are then introduced. The major part of this paper reviews existing hybrid processes reported over the past two decades. Finally, this paper attempts to propose possible definitions of hybrid processes along with the authors' classification, followed by discussion of their developments, limitations and future research needs.

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Precision machining of small holes by the hybrid process of electrochemical removal and grinding

Cited by 98 publications

References 7 publications

Improvement of Machining Accuracy

Improvement of Machining Accuracy

Productivity Improvement Through the Application of Hybrid Processes

A review of hybrid manufacturing processes – state of the art and future perspectives

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