The development of fatigue in a machine element can be divided into the fatigue crack initiation stage and the crack growth stage. The effects of the surface conditions, such as roughness and surface qualities, on the fatigue strength are considered to be restricted to the fatigue crack initiation stage. Thus, these effects can be evaluated exactly by the investigation on the fatigue crack initiation life. In this research a practical method is presented for detecting fatigue crack initiation during fatigue tests using an ion-sputtered film. Ion-sputtered films were formed on acrylic and steel test pieces having a specially designed round notch. Three-point bending fatigue tests were performed and the instants of fatigue crack initiation on the notched surface of both acrylic and steel test pieces during the tests were identified clearly; thus the fatigue crack initiation life can also be determined experimentally using the presented method. In addition, since the system used to measure the electric resistance of the film, which indicates the crack initiation, is extremely simple, that is, it consists of a variable resistor, a DC power source, and a data recorder, this method is considered very practical for monitoring crack initiation.

1.
Kato
,
M.
,
Deng
,
G.
,
Inoue
,
K.
, and
Takatsu
,
N.
, 1993, “
Evaluation of the Strength of Carburized Spur Gear Teeth Based on Fracture Mechanics
,”
JSME Int. J., Ser. C
1340-8062,
36
(
2
), pp.
233
240
.
2.
Inoue
,
K.
,
Sonoda
,
H.
,
Deng
,
G.
,
Yamanaka
,
M.
, and
Kato
,
M.
, 1998, “
Effect of CBN Grinding on the Bending Strength of Carburized Gears
,”
ASME J. Mech. Des.
1050-0472,
120
(
4
), pp.
606
611
.
3.
Damir
,
T. J.
,
Srecko
,
G.
, and
Srdian
,
P.
, 2003, “
Numerical Modeling of the Crack Propagation Path at Gear Tooth
,”
Proceedings of the Ninth International Power Transmission and Gearing Conference
.
4.
Inoue
,
K.
,
Kato
,
M.
, and
Yamanaka
,
M.
, 1989, “
Fatigue Strength and Crack Growth of Carburized and Shot Peened Spur Gears
,”
Proceedings of the Power Transmission Engineering Conference
, pp.
663
668
.
5.
Newman
,
J. C.
, Jr.
,
Phillips
,
F. P.
,
Swain
,
M. H.
, and
Everett
,
R. A.
, Jr.
, 1992, “
Fatigue Mechanics. An Assessment of a Unified Approach to Life Prediction
,”
ASTM Spec. Tech. Publ.
0066-0558,
1122
, pp.
5
27
.
6.
Makabe
,
C.
,
Nishida
,
S.
,
Kaneshiro
,
H.
, and
Tamaki
,
S.
, 1992, “
Method of Detecting Fatigue Crack Initiation Through Analysis of Strain Waveform
,”
Trans. Jpn. Soc. Mech. Eng., Ser. A
0387-5008,
58
(
551
), pp.
1191
1195
.
7.
Makabe
,
C.
,
Kaneshiro
,
H.
,
Nishida
,
S.
, and
Urashima
,
C.
, 1994, “
Detection of 1mm Fatigue Crack Initiation Using Strain Waveform
,”
ASME J. Eng. Mater. Technol.
0094-4289,
116
, pp.
483
487
.
8.
Makabe
,
C.
,
Nishida
,
S.
,
Urashim
,
C.
, and
Kaneshiro
,
H.
, 1994, “
Detection of Fatigue Crack Initiation Under a Random Load
,”
Trans. Jpn. Soc. Mech. Eng., Ser. A
0387-5008,
60
(
576
), pp.
1753
1760
.
9.
Katayama
,
Y.
,
Sakane
,
M.
, and
Ohnami
,
M.
, 1996, “
Surface Crack Detection by A. C. Potential Drop Method: Experiment and FEM Considerations
,”
Trans. Jpn. Soc. Mech. Eng., Ser. A
0387-5008,
62
(
602
), pp.
2216
2223
.
10.
Lee
,
Y.
, and
Sakane
,
M.
, 2002, “
Multiple Surface Crack Detection Using A. C. Potential Drop Methd
,”
Trans. Jpn. Soc. Mech. Eng., Ser. A
0387-5008,
68
(
672
), pp.
1220
1227
.
11.
Tohmyoh
,
H.
,
Ochi
,
Y.
, and
Matsumura
,
T.
, 2001, “
Study on Detection and Quantitative Evaluation of Fatigue Cracks Using Surface SH Waves
,”
Trans. Jpn. Soc. Mech. Eng., Ser. A
0387-5008,
67
(
661
), pp.
1508
1513
.
12.
Papazian
,
J. M.
,
Nardiello
,
J.
,
Silberstein
,
R.
,
Welsh
,
G.
,
Grundy
,
D.
,
Craven
,
C.
,
Evans
,
L.
,
Goldfine
,
N.
,
Michaels
,
J. E.
,
Michaels
,
T. E.
,
Li
,
Y.
, and
Laird
,
C.
, 2007, “
Sensors for Monitoring Early Stage Fatigue Cracking
,”
Int. J. Fatigue
0142-1123,
29
, pp.
1668
1680
.
13.
Zilberstein
,
V.
,
Schlicker
,
D.
,
Walrath
,
K.
,
Weiss
,
V.
, and
Goldfine
,
N.
, 2001, “
MWM Eddy Current Sensors for Monitoring of Crack Initiation and Growth During Fatigue Tests and in Service
,”
Int. J. Fatigue
0142-1123,
23
, pp.
S477
S485
.
14.
Zilberstein
,
V.
,
Walrath
,
K.
,
Grundy
,
D.
,
Schlicker
,
D.
,
Goldfine
,
N.
,
Abramovici
,
E.
, and
Yentzer
,
T.
, 2003, “
MWM Eddy-Current Arrays for Crack Initiation and Growth Monitoring
,”
Int. J. Fatigue
0142-1123,
25
, pp.
1147
1155
.
15.
Zilberstein
,
V.
,
Grundy
,
D.
,
Weiss
,
V.
,
Goldfine
,
N.
,
Abramovici
,
E.
,
Newman
,
J.
, and
Yentzer
,
T.
, 2005, “
Early Detection and Monitoring of Fatigue in High Strength Steels With MWM-Arrays
,”
Int. J. Fatigue
0142-1123,
27
, pp.
1644
1652
.
16.
Deng
,
G.
,
Tokunaga
,
H.
,
Ikeda
,
K.
,
Nakanishi
,
T.
, and
Kaizu
,
K.
, 2004, “
Crack Length Measurement With A Grid Pattern Ion Sputtered Film
,”
Proceedings of the 12th International Conference on Experimental Mechanics
,
Politecnico di Bari
,
Italy
, pp.
1
8
.
17.
Deng
,
G.
,
Nasu
,
K.
,
Redda
,
T. D.
, and
Nakanishi
,
T.
, 2006, “
Fatigue Crack Length Measurement Method With an Ion Sputtered Film
,”
Proceedings of the 16th European Conference of Fracture
,
Alexandroupolis
,
Greece
, pp.
1
8
.
18.
Deng
,
G.
,
Nasu
,
K.
,
Kuroiwa
,
S.
, and
Nakanishi
,
T.
, 2007, “
Crack Length Measurement With an Ion Sputtered Metal Film
,”
Trans. Jpn. Soc. Mech. Eng., Ser. A
0387-5008,
73
(
727
), pp.
849
854
.
19.
Deng
,
G.
,
Inoue
,
K.
,
Takatsu
,
N.
, and
Kato
,
M.
, 1991, “
Evaluation of the Strength of Carburized Spur Gear Teeth Based on Fracture Mechanics (3rd report, The Crack Growth in Carburized Gear)
,”
Trans. Jpn. Soc. Mech. Eng., Ser. A
0387-5008,
57
(
535
), pp.
909
913
.
20.
Ogawa
,
T.
, and
Suresh
,
S.
, 1991, “
Surface Film Technique for Crack Length Measurement in Nonconductive Brittle Materials: Calibration and Evaluation
,”
Eng. Fract. Mech.
0013-7944,
39
(
4
), pp.
629
639
.
You do not currently have access to this content.