Electrochemical drilling of multiple holes with electrolyte-extraction

“…This decreased the machining stability, efficiency, surface integrity, and shape accuracy of machined holes. Zhu et al (2010) and Wang et al (2010b) proposed a wedged tube electrode (Figure 41b) to modify the electrolyte flow field and consequently improved machining accuracy and stability. Zhu et al (2010) demonstrated that the wedge-shaped electrode was a feasible method to improve the shape accuracy of machined holes.…”

“…Zhu et al (2010) and Wang et al (2010b) proposed a wedged tube electrode (Figure 41b) to modify the electrolyte flow field and consequently improved machining accuracy and stability. Zhu et al (2010) demonstrated that the wedge-shaped electrode was a feasible method to improve the shape accuracy of machined holes. Figure 42 shows the comparison of cooling holes machined by a traditional electrode and a wedged electrode, respectively.…”

“…Downloaded by [New York University] at 23:59 02 August 2015 FIGURE 41 STED process with an inclined angle θ using a (a) traditional tube electrode and (b) wedged tube electrode (Zhu et al, 2010). © Elsevier.…”

“…Based on STED process with vacuum extraction, Zhu et al (2010) and Wang et al (2010b) developed a new method for making inclined holes using a wedged tube electrode, as shown in Figure 41. When using a traditional tube electrode, the imbalance of electrolyte flow field distribution sometimes caused abnormal material dissolution, sparking, and even short circuits.…”

State-Of-Art, Challenges, and Outlook on Manufacturing of Cooling Holes for Turbine Blades

“…This decreased the machining stability, efficiency, surface integrity, and shape accuracy of machined holes. Zhu et al (2010) and Wang et al (2010b) proposed a wedged tube electrode (Figure 41b) to modify the electrolyte flow field and consequently improved machining accuracy and stability. Zhu et al (2010) demonstrated that the wedge-shaped electrode was a feasible method to improve the shape accuracy of machined holes.…”

“…Zhu et al (2010) and Wang et al (2010b) proposed a wedged tube electrode (Figure 41b) to modify the electrolyte flow field and consequently improved machining accuracy and stability. Zhu et al (2010) demonstrated that the wedge-shaped electrode was a feasible method to improve the shape accuracy of machined holes. Figure 42 shows the comparison of cooling holes machined by a traditional electrode and a wedged electrode, respectively.…”

“…Downloaded by [New York University] at 23:59 02 August 2015 FIGURE 41 STED process with an inclined angle θ using a (a) traditional tube electrode and (b) wedged tube electrode (Zhu et al, 2010). © Elsevier.…”

“…Based on STED process with vacuum extraction, Zhu et al (2010) and Wang et al (2010b) developed a new method for making inclined holes using a wedged tube electrode, as shown in Figure 41. When using a traditional tube electrode, the imbalance of electrolyte flow field distribution sometimes caused abnormal material dissolution, sparking, and even short circuits.…”

State-Of-Art, Challenges, and Outlook on Manufacturing of Cooling Holes for Turbine Blades

“…Thanigaivelan et al researched the mechanism of drilling microholes in copper by ECM and analyzed various processing parameters by Taguchi's quality design concepts [10]. Zhu et al proposed an electrochemical drilling method of multiple holes in which reverse electrolyte flow is achieved in the way of electrolyte-extraction, instead of traditional forward electrolyte flow which often causes poor electrolyte flow conditions and so an unstable machining process [11]. Natsu et al used electrolyte jet machining to process microdimple arrays of 300 m in diameter [12].…”

Distribution Manner of Compaction Circular Cylinders in Through-Active-Mask Electrochemical Machining

Analysis and Modeling on Defects of Deep Micro-holes Fabrication in Stainless Steel Through μECM