Because electrode wear in microelectrical discharge machining significantly deteriorates the machining accuracy, the electrode wear must be compensated in process to improve the geometric accuracy of the product. Therefore, there has been a substantial amount of research on electrode wear and the compensation for EDM processes. In this study, a novel control method for a micro-EDM process using discharge pulse counting is proposed. The method is based on the proportional relationship between the removed workpiece volume and the number of discharge pulses. A model-based control was designed using the relationship between the pulse frequency and gap distance, and implemented in an actual micro-EDM system. Experimental results demonstrated that the developed method makes two- and three-dimensional micro-EDM milling processes fast and accurate without complex path planning to compensate electrode wear.

1.
Yu
,
Z. Y.
,
Masuzawa
,
T.
, and
Fujino
,
M.
, 1998, “
3D Micro-EDM With Simple Shape Electrode, Part Machining of Cavities With Sharp Corners and Electrode Wear Compensation
,”
Int. J. Electr. Mach.
,
3
, pp.
7
12
.
2.
Yu
,
Z. Y.
,
Masuzawa
,
T.
, and
Fujino
,
M.
, 1998, “
Micro-EDM for Three-Dimensional Cavities–Development of Uniform Wear Method—Micro Hole Machining by Conventional Penetration Electrical Discharge Machine
,”
CIRP Ann.
0007-8506,
47
, pp.
169
172
.
3.
Rajurkar
,
K. P.
, and
Yu
,
Z. Y.
, 2000, “
3D Micro-EDM Using CAD/CAM
,”
CIRP Ann.
0007-8506,
49
, pp.
127
130
.
4.
Ho
,
K. H.
, and
Newman
,
S. T.
, 2003, “
Sate of the Art Electrical Discharge Machining (EDM)
,”
Int. J. Mach. Tools Manuf.
0890-6955,
43
, pp.
1287
1300
.
5.
Yu
,
Z. Y.
,
Kozak
,
J.
, and
Rajurkar
,
K. P.
, 2003, “
Modeling and Simulation of Micro EDM Process
,”
CIRP Ann.
0007-8506,
52
, pp.
143
146
.
6.
Chang
,
Y.-F.
, and
Chiu
,
Z.-H.
, 2004, “
Electrode Wear-Compensation of Electric Discharge Scanning Process Using a Robust Gap-Control
,”
Mechatronics
0957-4158,
14
, pp.
1121
1139
.
7.
Rajurkar
,
K. P.
, and
Wang
,
W. M.
, 1989, “
A New Model Reference Adaptive Control of EDM
,”
CIRP Ann.
0007-8506,
38
, pp.
183
186
.
8.
Rajurkar
,
K. P.
, and
Wang
,
W. M.
, 1990, “
Real-Time Stochastic Model and Control of EDM
,”
CIRP Ann.
0007-8506,
39
, pp.
187
190
.
9.
Jung
,
J. W.
,
Ko
,
S. H.
,
Jeong
,
Y. H.
,
Min
,
B.-K.
, and
Lee
,
S. J.
, 2007, “
Estimation of Material Removal Volume of a Micro-EDM Drilled Hole Using Discharge Pulse Monitoring
,”
Int. J. Precis. Eng. Manuf.
,
8
(
4
), pp.
45
49
.
10.
Bleys
,
P.
,
Kruth
,
J.-P.
,
Lauwers
,
B.
,
Zryd
,
A.
,
Delpretti
,
R.
, and
Tricarico
,
C.
, 2002, “
Real-Time Tool Wear Compensation in Milling EDM
,”
CIRP Ann.
0007-8506,
51
, pp.
157
160
.
11.
Bleys
,
P.
,
Kruth
,
J.-P.
, and
Lauwers
,
B.
, 2004, “
Sensing and Compensation of Tool Wear in Milling EDM
,”
J. Mater. Process. Technol.
0924-0136,
149
, pp.
139
146
.
12.
Pham
,
D. T.
,
Dimov
,
S. S.
,
Bigot
,
S.
,
Ivanov
,
A.
, and
Popov
,
K.
, 2004, “
Micro-EDM—Recent Developments and Research Issues
,”
J. Mater. Process. Technol.
0924-0136,
149
, pp.
50
57
.
13.
Han
,
F.
,
Wachi
,
S.
, and
Kunieda
,
M.
, 2004, “
Improvement of Machining Characteristics of Micro-EDM Using Transistor Type Isopulse Generator and Servo Feed Control
,”
Precis. Eng.
0141-6359,
28
, pp.
378
385
.
14.
Dhanik
,
S.
, and
Joshi
,
S. S.
, 2005, “
Modeling of a Single Resistance Capacitance Pulse Discharge in Micro-Electro Discharge Machining
,”
ASME J. Manuf. Sci. Eng.
1087-1357,
127
, pp.
759
767
.
15.
Jameson
,
E. C.
, 2001,
Electrical Discharge Machining
,
Society of Manufacturing Engineers
,
Dearborn
.
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