“…Hence for achieving maximum average machined depth the machining parameters to be set at a higher level. Similar graphical trends were observed by previous reports for glass material [18,25]. Fig.…”
Section: Fig 5 Main Effect Plots For Average Machined Depth Of Soda-supporting
confidence: 91%
“…The average machined depth increases with increasing voltage from 55 to 75 V. The increasing trend with voltage is mainly due to field emission law. The observed average machined depth results found out similar trends which were previously published reports by researchers [18,24,25]. All input parameters are a significant effect on average machined depth because P values are less than 0.05.…”
Section: Analysis Of Average Machined Depth Of Soda-lime Using Brass supporting
confidence: 88%
“…Since the tool contacts the workpiece, the drilling tool is self-centering as in mechanical micro-drilling process. The hole diameter is a typical parameter to characterize the geometric correctness of ECDM [6,[17][18][19]. Table 3 shows that micro-holes geometries in different input process variable conditions using a fluorescence optical microscopic.…”
Section: Machining With Fabricated Ecdm Setupmentioning
confidence: 99%
“…Thus, decreases the current density of the process. The rotating speed of the tool electrode improves the heat dissipation capacity in the machining gap [18,[30][31][32][33]. The voltage is also the most dominant factor for average hole diameter and then electrolyte concentration.…”
Section: Anova For Average Hole Diametermentioning
The Electrochemical discharge machining (ECDM) is a hybrid non-traditional process which is specifically used for machining of conducting as well as non-conducting materials. In this research work, the fabricated ECDM experimental setup was used to machine the Soda-lime glass material with Brass tool material. The experiments were done on Soda-lime glass material with the help of Taguchi L27 orthogonal array method and analysed by using MINITAB 17 software. The average hole diameter and average machined depth results were checked after ECDM drilling on Soda-lime glass material with considering the input process parameters such as an electrolyte concentration, voltage and rotation. The experimental results indicated that voltage was the most dominant factor for average machined depth followed by an electrolyte concentration and rotation speed. The rotation speed was the most dominant factor for average hole diameter followed by voltage and electrolyte concentration.
“…Hence for achieving maximum average machined depth the machining parameters to be set at a higher level. Similar graphical trends were observed by previous reports for glass material [18,25]. Fig.…”
Section: Fig 5 Main Effect Plots For Average Machined Depth Of Soda-supporting
confidence: 91%
“…The average machined depth increases with increasing voltage from 55 to 75 V. The increasing trend with voltage is mainly due to field emission law. The observed average machined depth results found out similar trends which were previously published reports by researchers [18,24,25]. All input parameters are a significant effect on average machined depth because P values are less than 0.05.…”
Section: Analysis Of Average Machined Depth Of Soda-lime Using Brass supporting
confidence: 88%
“…Since the tool contacts the workpiece, the drilling tool is self-centering as in mechanical micro-drilling process. The hole diameter is a typical parameter to characterize the geometric correctness of ECDM [6,[17][18][19]. Table 3 shows that micro-holes geometries in different input process variable conditions using a fluorescence optical microscopic.…”
Section: Machining With Fabricated Ecdm Setupmentioning
confidence: 99%
“…Thus, decreases the current density of the process. The rotating speed of the tool electrode improves the heat dissipation capacity in the machining gap [18,[30][31][32][33]. The voltage is also the most dominant factor for average hole diameter and then electrolyte concentration.…”
Section: Anova For Average Hole Diametermentioning
The Electrochemical discharge machining (ECDM) is a hybrid non-traditional process which is specifically used for machining of conducting as well as non-conducting materials. In this research work, the fabricated ECDM experimental setup was used to machine the Soda-lime glass material with Brass tool material. The experiments were done on Soda-lime glass material with the help of Taguchi L27 orthogonal array method and analysed by using MINITAB 17 software. The average hole diameter and average machined depth results were checked after ECDM drilling on Soda-lime glass material with considering the input process parameters such as an electrolyte concentration, voltage and rotation. The experimental results indicated that voltage was the most dominant factor for average machined depth followed by an electrolyte concentration and rotation speed. The rotation speed was the most dominant factor for average hole diameter followed by voltage and electrolyte concentration.
“…Dressing and cleaning of grinding wheels can also be achieved through the application of localised energy sources such as laser [37,97,229] and electrical-discharge [46,119,233] based processes (see example schematics in Fig. 18), leading to improvements in terms of grinding performance.…”
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