When measuring the residual stress within a component using the electrical discharge machining (EDM) strain-gage method, a metallurgical transformation layer is formed on the wall of the measurement hole. This transformation layer induces an additional residual stress and therefore introduces a measurement error. In this study, it is shown that given an appropriate set of machining conditions, this measurement error can be compensated directly using a calibration stress factor σcal computed in accordance with the properties of the workpiece material. It is shown that for EDM machining conditions of 120 V/12 A/6μs/30μs (discharge voltage/pulse current/pulse-on duration/pulse-off duration), the hole-drilling induced stress reduces with an increasing thermal conductivity (k) in accordance with the relation σcal=325.5k0.65MPa and increases linearly with an increasing carbon equivalent (CE) in accordance with σcal=7.6×(CE)+22.4MPa. Therefore, a given knowledge of the thermal conductivity coefficient or carbon equivalent of the workpiece material, an accurate value of the true residual stress within a component can be obtained simply by subtracting the computed value of the calibration stress from the stress value obtained in accordance with the EDM hole-drilling strain-gage method prescribed in ASTM E837.

1.
ASTM Standards
, 2008, ASTM E837-08e1, Standard Test Method for Determining Residual Stresses by the Hole Drilling Strain-Gage Method, http://www.astm.org/Standards/E837.htmhttp://www.astm.org/Standards/E837.htm.
2.
Lee
,
H. T.
,
Hsu
,
F. C.
, and
Tai
,
T. Y.
, 2004, “
Study of Surface Integrity Using the Small Area EDM Process With a Copper–Tungsten Electrode
,”
Mater. Sci. Eng., A
0921-5093,
364
, pp.
346
356
.
3.
Lee
,
H. T.
,
Rehbach
,
W. P.
,
Tai
,
T. Y.
, and
Hsu
,
F. C.
, 2004, “
Relationship Between Electrode Size and Surface Cracking in the EDM Machining Process
,”
J. Mater. Sci.
0022-2461,
39
, pp.
6981
6986
.
4.
Navas
,
V. G.
,
Ferreres
,
I.
,
Marañón
,
J. A.
,
Garcia-Rosales
,
C.
, and
Sevillano
,
J. G.
, 2008, “
Electro-Discharge Machining (EDM) Versus Hard Turning and Grinding—Comparison of Residual Stresses and Surface Integrity Generated in AISI O1 Tool Steel
,”
J. Mater. Process. Technol.
0924-0136,
195
(
1–3
), pp.
186
194
.
5.
Ekmekci
,
B.
, 2007, “
Residual Stresses and White Layer in Electric Discharge Machining (EDM)
,”
Appl. Surf. Sci.
0169-4332,
253
, pp.
9234
9240
.
6.
Ekmekci
,
B.
,
Tekkaya
,
A. E.
, and
Erden
,
A.
, 2006, “
A Semi-Empirical Approach for Residual Stresses in Electric Discharge Machining (EDM)
,”
Int. J. Mach. Tools Manuf.
0890-6955,
46
, pp.
858
868
.
7.
Lee
,
H. T.
,
Mayer
,
J.
,
Hsu
,
F. C.
,
Rehbach
,
W. P.
,
Weirich
,
T.
,
Dimyati
,
A.
, and
Tai
,
T. Y.
, 2006, “
Application of EDM Hole-Drilling Method to the Measurement of Residual Stress in Tool and Carbon Steels
,”
ASME J. Eng. Mater. Technol.
0094-4289,
128
, pp.
468
475
.
8.
Lee
,
H. T.
,
Liu
,
C.
,
Hsu
,
F. C.
, and
Hsu
,
J. M.
, 2008, “
An Enhanced Calibration Scheme for the EDM Hole-Drilling Strain Gage Method for the Measurement of Residual Stress in Ferrous Materials
,”
Mater. Trans.
1345-9678,
49
(
8
), pp.
1905
1910
.
9.
Lee
,
H. T.
, and
Liu
,
C.
, 2008, “
Calibration of Residual Stress Measurements Obtained From EDM Hole Drilling Method Using Physical Material Properties
,”
Mater. Sci. Technol.
0267-0836,
24
(
12
), pp.
1462
1469
.
10.
ASM
, 2000, Heat Treatment’s Guide—Standard Practices and Procedures for Steel.
11.
Tai
,
T. Y.
, 1999, “
Measurement of Surface Residual Stress in Steel with Hard Layer by Using EDM Hole-Drilling Method
,” MA thesis, National Cheng-Kung University.
12.
Hsu
,
F. C.
, 2005, “
The Calibration Study of EDM Hole Drilling Method for Residual Stress Measurement
,” Ph.D. dissertation, National Cheng-Kung University.
13.
“Failure Analysis and Prevention,”
ASM Metals Handbook
, 9th ed., 1986,
American Society for Metals
,
Metals Park, OH
, Vol.
11
, p.
8
.
You do not currently have access to this content.