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Date of download: 10/11/2017 Copyright © ASME. All rights reserved.

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1 Date of download: 10/11/2017 Copyright © ASME. All rights reserved. From: Optimization of Planetary Movement Parameters for Microhole Drilling by Micro-Electrical Discharge Machining J. Micro Nano-Manuf. 2013;1(3): doi: / Figure Legend: Tool path of planetary movement of electrode

2 Date of download: 10/11/2017 Copyright © ASME. All rights reserved. From: Optimization of Planetary Movement Parameters for Microhole Drilling by Micro-Electrical Discharge Machining J. Micro Nano-Manuf. 2013;1(3): doi: / Figure Legend: The relationship between electrode feed and discharge gap

3 Date of download: 10/11/2017 Copyright © ASME. All rights reserved. From: Optimization of Planetary Movement Parameters for Microhole Drilling by Micro-Electrical Discharge Machining J. Micro Nano-Manuf. 2013;1(3): doi: / Figure Legend: A horizontal micro-EDM

4 Date of download: 10/11/2017 Copyright © ASME. All rights reserved. From: Optimization of Planetary Movement Parameters for Microhole Drilling by Micro-Electrical Discharge Machining J. Micro Nano-Manuf. 2013;1(3): doi: / Figure Legend: Microhole of  μm in diameter drilled by micro-EDM with planetary movement

5 Date of download: 10/11/2017 Copyright © ASME. All rights reserved. From: Optimization of Planetary Movement Parameters for Microhole Drilling by Micro-Electrical Discharge Machining J. Micro Nano-Manuf. 2013;1(3): doi: / Figure Legend: Electrode of 53.04 μm in diameter after hole drilling

6 Date of download: 10/11/2017 Copyright © ASME. All rights reserved. From: Optimization of Planetary Movement Parameters for Microhole Drilling by Micro-Electrical Discharge Machining J. Micro Nano-Manuf. 2013;1(3): doi: / Figure Legend: Microhole of  μm in diameter drilled by micro-EDM without planetary movement

7 Date of download: 10/11/2017 Copyright © ASME. All rights reserved. From: Optimization of Planetary Movement Parameters for Microhole Drilling by Micro-Electrical Discharge Machining J. Micro Nano-Manuf. 2013;1(3): doi: / Figure Legend: Relationship between MRR and velocity of electrode planetary movement: (a) diameter of electrode (59.37 μm), capacitance (470 pF), radius of planetary movement (15 μm); (b) diameter of electrode (82.44 μm), capacitance (470 pF), radius of planetary movement (10 μm); (c) diameter of electrode (60.67 μm), capacitance (3300 pF), radius of planetary movement (10 μm)

8 Date of download: 10/11/2017 Copyright © ASME. All rights reserved. From: Optimization of Planetary Movement Parameters for Microhole Drilling by Micro-Electrical Discharge Machining J. Micro Nano-Manuf. 2013;1(3): doi: / Figure Legend: Relationship between MRR and k: (a) diameter of electrode (61.00 μm), capacitance (100 pF), radius of planetary movement (10 μm); (b) diameter of electrode (61.56 μm), capacitance (470 pF), radius of planetary movement (10 μm); (c) diameter of electrode (62.86 μm), capacitance (1000 pF), radius of planetary movement (15 μm); (d) diameter of electrode (80.00 μm), capacitance (1000 pF), radius of planetary movement (10 μm)


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