It is well known that cylindrical guided waves are very efficient for detecting pipe wall defects when pipes are open in the air. In this paper it is investigated how efficient the guided waves are for detecting pipe wall damage when the pipes are embedded in the soil. For this purpose guided waves were propagated through pipes that were buried in the soil by placing transmitters on one end of the embedded pipe and receivers on the other end. Received signals for both defect-free and defective pipes were recorded. Then the received signals were subjected to wavelet transforms. To investigate whether embedding the pipe in the soil makes it more difficult to detect the pipe wall defects, the same set of defective and defect-free pipes were studied before and after burying them in the soil. In both cases the defective pipes could be easily identified. Interestingly, contrary to the intuition, it was observed that under certain conditions defective pipes could be identified more easily in buried conditions. For example, the difference between the strengths of the initial parts of the received signal from defect-free and dented pipes was found to be greater for the buried pipes. Some qualitative justification for easier detection of buried dented pipes is provided.

1.
Gazis
,
D. Z.
, 1959, “
Three Dimensional Investigation of Propagation of Waves in Hollow Circular Cylinders. I. Analytical Foundation
,”
J. Acoust. Soc. Am.
0001-4966,
31
(
5
), pp.
568
573
.
2.
Gazis
,
D. Z.
, 1959, “
Three Dimensional Investigation of Propagation of Waves in Hollow Circular Cylinders. II. Numerical Results
,”
J. Acoust. Soc. Am.
0001-4966,
31
(
5
), pp.
573
578
.
3.
Greenspon
,
J. E.
, 1960, “
Axially Symmetric Vibrations of a Thick Cylindrical Shell Comparison of the Exact Theory with Approximate Theories
,”
J. Acoust. Soc. Am.
0001-4966,
32
(
8
), pp.
1017
1025
.
4.
Greenspon
,
J. E.
, 1960, “
Vibration of a Thick Walled Cylindrical Shell Comparison of the Exact Theory with Approximate Theories
,”
J. Acoust. Soc. Am.
0001-4966,
32
(
5
), pp.
571
578
.
5.
Zemanek
,
J.
, Jr.
, 1998, “
An Experimental and Theoretical Investigation of Elastic Wave Propagation in a Cylinder
,”
J. Acoust. Soc. Am.
0001-4966,
10
(
4
), pp.
205
225
.
6.
Silk
,
M. G.
, and
Bainton
,
K. F.
, 1979, “
The Propagation in Metal Tubing of Ultrasonic Wave Modes Equivalent to Lamb Waves
,”
Ultrasonics
0041-624X,
17
(
1
), pp.
11
19
.
7.
Brook
,
M.
,
Ngoc
,
T. D. K.
, and
Eder
,
J.
, 1990, “
Ultrasonic Inspection of Stem generator Tubing by Chemical Guided Waves
,”
Review of Progress in QNDE
,
D. O.
Thomson
and
D. E.
Chimenti
, eds.,
Plenum
,
New York
, Vol.
9
, pp.
243
249
.
8.
Lowe
,
M. J. S.
,
Alleyne
,
D. N.
, and
Cawley
,
P.
, 1998, “
Defect Detection in Pipes Using Guided Waves
,”
Ultrasonics
0041-624X,
36
, pp.
147
154
.
9.
Lowe
,
M. J. S.
,
Alleyne
,
D. N.
, and
Cawley
,
P.
, 1998, “
Mode Conversion of a Guided Wave by a Part-Circumferential Notch in a Pipe
,”
Trans. ASME, J. Appl. Mech.
0021-8936,
65
, pp.
649
656
.
10.
Demma
,
A.
,
Cawley
,
P.
,
Lowe
,
M.
,
Roosenbrand
,
A. G.
, and
Pavlakovic
,
B.
, 2004, “
The Reflection of Guided Waves From Notches in Pipes: A Guide for Interpreting Corrosion Measurements
,”
NDT & E Int.
0963-8695,
37
, pp.
167
180
.
11.
Rose
,
J. L.
,
Ditri
,
J. J.
,
Pilarski
,
A.
,
Rajana
,
K.
, and
Carr
,
F.
, 1994, “
A Guided Wave Inspection Technique for Nuclear Steam Generator Tubing
,”
NDT & E Int.
0963-8695,
27
(
6
), pp.
307
310
.
12.
Rose
,
J. L.
,
Rajana
,
K. M.
, and
Carr
,
F. T.
, 1994, “
Ultrasonic Guided Wave Inspection Concepts for Steam Generator Tubing
,”
Mater. Eval.
0025-5327,
52
(
2
), pp.
134
139
.
13.
Guo
,
D.
, and
Kundu
,
T.
, 2000, “
A New Sensor for Pipe Inspection by Lamb Waves
,”
Mater. Eval.
0025-5327,
58
(
8
), pp.
991
994
.
14.
Guo
,
D.
, and
Kundu
,
T.
, 2001, “
A New Transducer Holder Mechanism for Pipe Inspection
,”
J. Acoust. Soc. Am.
0001-4966,
110
(
1
), pp.
305
309
.
15.
Na
,
W. B.
,
Kundu
,
T.
, and
Ehsani
,
M. R.
, 2002, “
Ultrasonic Guided Waves for Steel Bar-Concrete Interface Inspection
,”
Mater. Eval.
0025-5327,
60
(
3
), pp.
437
444
.
16.
Na
,
W. B.
,
Kundu
,
T.
, and
Ehsani
,
M. R.
, 2003, “
Lamb Waves for Detecting Delamination Between Steel Bars and Concrete
,”
Comput. Aided Civ. Infrastruct. Eng.
1093-9687,
18
, pp.
57
62
.
17.
Na
,
W. B.
, and
Kundu
,
T.
, 2002, “
Underwater Pipe Inspection Using Guided Waves
,”
ASME J. Pressure Vessel Technol.
0094-9930,
124
(
2
), pp.
196
200
.
18.
Na
,
W. B.
, and
Kundu
,
T.
, 2002, “
EMAT-Based Inspection of Concrete Filled Steel Pipes for Internal Voids and Inclusions
,”
ASME J. Pressure Vessel Technol.
0094-9930,
124
, pp.
265
272
.
19.
Cho
,
H.
,
Ogawa
,
S.
, and
Takemoto
,
M.
, 1996, “
Non-Contact Laser Ultrasonics for Detecting Subsurface Lateral Defects
,”
NDT & E Int.
0963-8695,
29
(
5
), pp.
301
306
.
20.
Rioul
,
O.
, and
Vetterli
,
M.
, 1991, “
Wavelets and Signal Processing
,”
IEEE Trans. Signal Process.
1053-587X,
8
(
4
), pp.
14
38
.
21.
Abbate
,
A.
,
Frankel
,
J.
, and
Das
,
P.
, 1995, “
Wavelet Transform Signal Processing for Dispersion Analysis of Ultrasonic Signals
,”
Proc.-IEEE Ultrason. Symp.
1051-0117,
1
, pp.
751
755
.
22.
Kaya
,
K.
,
Bilgutay
,
N. M.
, and
Murthy
,
R.
, 1994, “
Flaw Detection in Stainless Steel Samples, Using Wavelet Decomposition
,”
Proc.-IEEE Ultrason. Symp.
1051-0117,
94CH3468-6
, pp.
1271
1274
.
23.
Murase
,
M.
, and
Kawashima
,
K.
, 2002, “
Non-Contact Evaluation of Defects in Thin Plate With Multimode Lamb’s Wave and Wavelet Transform
,”
Proc. IMECE 2002, ASME International Mechanical Engineering Congress and Exposition
,
New Orleans, LA
, Nov. 17–22.
24.
Ahmad
,
R.
, and
Kundu
,
T.
, 2004, “
Guided Wave Technique to Detect Defects in Pipes Using Wavelet Transform
,”
Proceedings of the Second European Workshop on Structural Health Monitoring
,
Munich, Germany
, Jul. 7–9,
C.
Boller
and
W. J.
Staszewski
, eds.,
DEStech
,
Lancaster, PA
, pp.
645
652
.
25.
Ghosh
,
T.
, and
Kundu
,
T.
, 1998, “
A New Transducer Holder Mechanism For Efficient Generation and Reception of Lamb Modes in Large Plates
,”
J. Acoust. Soc. Am.
0001-4966,
104
(
3
), pp.
1498
1502
.
26.
Ghosh
,
T.
,
Kundu
,
T.
, and
Karpur
,
P.
, 1998, “
Efficient Use of Lamb Modes for Detecting Defects in Large Plates
,”
Ultrasonics
0041-624X,
36
(
7
), pp.
791
801
.
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