Abstract

This study aims to assess the residual mechanical properties of asphalt concrete (AC) using ultrasonic pulse velocity tests with P- and S-waves on field-extracted plates. In order to evaluate the impact of traffic load on the residual mechanical properties, the plates are extracted from both trafficked and untrafficked areas. S-wave measurements were particularly challenging because of high attenuation of the material, addressed by using piezoelectric transducers operating in shear mode and advanced signal processing. Three methods for the time of flight determination are proposed, taking into account the signal-to-noise ratio effects. The C-scan measurements are presented in the form of spatial cartographies, followed by statistical analysis to assess the homogeneity of the plates across the spatial distribution. The ageing and heavy vehicle traffic degrade the material’s residual mechanical properties, leading to reduced wave velocities, particularly in the base layer’s materials. Comparing with traditional two-point bending test the high-frequency dynamic modulus calculated from US measurements matched well with traditional complex modulus test results and viscoelastic rheological modeling. Ultrasonic pulse velocity measurements indicate that aged AC can be considered as an orthotropic material with transverse isotropy.

References

1.
Lou
K.
,
Xiao
P.
,
Kang
A.
,
Wu
Z.
, and
Dong
X.
, “
Effects of Asphalt Pavement Characteristics on Traffic Noise Reduction in Different Frequencies
,”
Transportation Research Part D: Transport and Environment
106
(
2022
): 103259, https://doi.org/10.1016/j.trd.2022.103259
2.
Wang
S.-P.
,
Dan
H.-C.
,
Li
L.
,
Liu
X.
, and
Zhang
Z.
, “
Dynamic Response of Asphalt Pavement under Vibration Rolling Load: Theory and Calibration
,”
Soil Dynamics and Earthquake Engineering
143
(
2021
): 106633, https://doi.org/10.1016/j.soildyn.2021.106633
3.
Pan
Y.
,
Han
D.
,
Yang
T.
,
Tang
D.
,
Huang
Y.
,
Tang
N.
, and
Zhao
Y.
, “
Field Observations and Laboratory Evaluations of Asphalt Pavement Maintenance Using Hot In-Place Recycling
,”
Construction and Building Materials
271
(
2021
): 121864, https://doi.org/10.1016/j.conbuildmat.2020.121864
4.
Ma
X.
,
Dong
Z.
,
Quan
W.
,
Dong
Y.
, and
Tan
Y.
, “
Real-Time Assessment of Asphalt Pavement Moduli and Traffic Loads Using Monitoring Data from Built-In Sensors: Optimal Sensor Placement and Identification Algorithm
,”
Mechanical Systems and Signal Processing
187
(
2023
): 109930, https://doi.org/10.1016/j.ymssp.2022.109930
5.
Mackiewicz
P.
, “
Thermal Stress Analysis of Jointed Plane in Concrete Pavements
,”
Applied Thermal Engineering
73
, no. 
1
(December
2014
):
1169
1176
, https://doi.org/10.1016/j.applthermaleng.2014.09.006
6.
Özgan
E.
and
Serin
S.
, “
Investigation of Certain Engineering Characteristics of Asphalt Concrete Exposed to Freeze–Thaw Cycles
,”
Cold Regions Science and Technology
85
(
2013
):
131
136
, https://doi.org/10.1016/j.coldregions.2012.09.003
7.
Benaboud
S.
,
Takarli
M.
,
Pouteau
B.
,
Allou
F.
,
Dubois
F.
,
Hornych
P.
, and
Nguyen
M. L.
, “
Fatigue Damage Monitoring and Analysis of Aged Asphalt Concrete Using Acoustic Emission Technique
,”
Road Materials and Pavement Design
22
, no. sup1 (
2021
):
S592
S603
, https://doi.org/10.1080/14680629.2021.1912813
8.
Diakhaté
M.
,
Larcher
N.
,
Takarli
M.
,
Angellier
N.
, and
Petit
C.
, “
Acoustic Techniques for Fatigue Cracking Mechanisms Characterization in Hot Mix Asphalt (HMA)
,” in
Seventh RILEM International Conference on Cracking in Pavements
(
Dordrecht, the Netherlands
:
Springer Netherlands
,
2012
),
771
781
, https://doi.org/10.1007/978-94-007-4566-7_75
9.
Allou
F.
,
Takarli
M.
,
Dubois
F.
,
Petit
C.
, and
Absi
J.
, “
Numerical Finite Element Formulation of the 3D Linear Viscoelastic Material Model: Complex Poisson’s Ratio of Bituminous Mixtures
,”
Archives of Civil and Mechanical Engineering
15
, no. 
4
(September
2015
):
1138
1148
, https://doi.org/10.1016/j.acme.2015.02.003
10.
Benaboud
S.
,
Allou
F.
,
Dubois
F.
, and
Takarli
M.
, “
Heterogeneous Numerical Modeling of Fatigue Damage for Asphalt Mixtures through Complex Mechanical Impedances
,”
Materials Today: Proceedings
. Published ahead of print, July 26, 2023, https://doi.org/10.1016/j.matpr.2023.07.149
11.
Kadium
N. S.
and
Sarsam
S. I.
, “
Evaluating Asphalt Concrete Properties by the Implementation of Ultrasonic Pulse Velocity
,”
Journal of Engineering
26
no. 
6
(June
2020
):
140
151
, https://doi.org/10.31026/j.eng.2020.06.12
12.
Benaboud
S.
,
Takarli
M.
,
Allou
F.
,
Dubois
F.
,
Nicolaï
A.
,
Pouteau
B.
, and
Beghin
A.
, “
Efficiency of Ultrasonic Pulse Velocity Test in the Determination of Residual Asphalt Mix Pavement Properties
,” in
Proceedings of the RILEM International Symposium on Bituminous Materials
(
Cham, Switzerland
:
Springer
,
2022
),
679
685
, https://doi.org/10.1007/978-3-030-46455-4_86
13.
Tigdemir
M.
,
Kalyoncuoglu
S. F.
, and
Kalyoncuoglu
U. Y.
, “
Application of Ultrasonic Method in Asphalt Concrete Testing for Fatigue Life Estimation
,”
NDT & E International
37
, no. 
8
(December
2004
):
597
602
, https://doi.org/10.1016/j.ndteint.2004.03.006
14.
Dunning
M. R.
Evaluation of Ultrasound Method for Determining Aggregate Gradations in Asphaltic Concrete Mixes
” (master’s thesis,
University of Nevada
, Las Vegas,
1996
).
15.
Dunning
M.
, “
Non-contact Ultrasonic Characterization of Hot Mix Asphalt (HMA)
,”
e-Journal of Nondestructive Testing (eNJNDT)
9
, no. 
11
(November
2004
).
16.
Pan
W.-H.
,
Sun
X.-D.
,
Wu
L.-M.
,
Yang
K.-K.
, and
Tang
N.
, “
Damage Detection of Asphalt Concrete Using Piezo-Ultrasonic Wave Technology
,”
Materials
12
, no. 
3
(February
2019
): 443, https://doi.org/10.3390/ma12030443
17.
Celaya
M.
and
Nazarian
S.
, “
Seismic Testing to Determine Quality of Hot-Mix Asphalt
,”
Transportation Research Record: Journal of the Transportation Research Board
1946
, no. 
1
(January
2006
):
113
122
, https://doi.org/10.1177/0361198106194600113
18.
Jurado
M. C.
, “
Quantifying Anisotropy in Asphalt Concrete Pavements Using an Ultrasonic Method
” (master’s thesis,
The University of Texas at El Paso
,
2008
).
19.
Arabani
M.
,
Kheiry
P. T.
, and
Ferdosi
B.
, “
Laboratory Evaluation of the Effect of HMA Mixt Parameters on Ultrasonic Pulse Wave Velocities
,”
Road Materials and Pavement Design
10
, no. 
1
(
2009
):
223
232
, https://doi.org/10.1080/14680629.2009.9690189
20.
Mounier
D.
,
Di Benedetto
H.
,
Sauzéat
C.
, and
Bilodeau
K.
, “
Observation of Fatigue of Bituminous Mixtures Using Wave Propagation
,”
Journal of Materials in Civil Engineering
28
, no. 
1
(January
2016
): 04015083, https://doi.org/10.1061/(ASCE)MT.1943-5533.0001353
21.
Epps
A.
,
Harvey
J. T.
,
Kim
Y. R.
, and
Roque
R.
, “
Structural Requirements for Bituminous Paving Mixtures
,” in
Transportation in the New Millennium
(Washington, DC: Transportation Research Board,
2000
).
22.
Birgisson
B.
,
Roque
R.
, and
Page
G. C.
, “
Ultrasonic Pulse Wave Velocity Test for Monitoring Changes in Hot-Mix Asphalt Mixture Integrity from Exposure to Moisture
,”
Transportation Research Record: Journal of the Transportation Research Board
1832
, no. 
1
(January
2003
):
173
181
, https://doi.org/10.3141/1832-21
23.
Norambuena-Contreras
J.
,
Castro-Fresno
D.
,
Vega-Zamanillo
A.
,
Celaya
M.
, and
Lombillo-Vozmediano
I.
, “
Dynamic Modulus of Asphalt Mixture by Ultrasonic Direct Test
,”
NDT & E International
43
, no. 
7
(October
2010
):
629
634
, https://doi.org/10.1016/j.ndteint.2010.06.007
24.
Tavassoti
P.
,
Ameen
T. H.
,
Baaj
H.
, and
Cascante
G.
, “
Improving the Modulus Master Curve of Bituminous Mixes Using Ultrasonic Measurements
,” in
Proceedings of the RILEM International Symposium on Bituminous Materials
(Cham, Switzerland: Springer,
2022
),
1055
1061
, https://doi.org/10.1007/978-3-030-46455-4_134
25.
Benedetto
H. D.
,
Sauzéat
C.
, and
Sohm
J.
, “
Stiffness of Bituminous Mixtures Using Ultrasonic Waves Propagation
,”
Road Materials and Pavement Design
10
, no. 
4
(
2009
):
789
814
, https://doi.org/10.1080/14680629.2009.9690227
26.
Larcher
N.
,
Takarli
M.
,
Angellier
N.
,
Petit
C.
, and
Sebbah
H.
, “
Towards a Viscoelastic Mechanical Characterization of Asphalt Materials by Ultrasonic Measurements
,”
Materials and Structures
48
, no. 
5
(May
2015
):
1377
1388
, https://doi.org/10.1617/s11527-013-0240-0
27.
Beall
F. C.
, “
Overview of the Use of Ultrasonic Technologies in Research on Wood Properties
,”
Wood Science and Technology
36
, no. 
3
(June
2002
):
197
212
, https://doi.org/10.1007/s00226-002-0138-4
28.
Arciniegas
A.
,
Prieto
F.
,
Brancheriau
L.
, and
Lasaygues
P.
, “
Literature Review of Acoustic and Ultrasonic Tomography in Standing Trees
,”
Trees
28
, no. 
6
(December
2014
):
1559
1567
, https://doi.org/10.1007/s00468-014-1062-6
29.
Kurz
J. H.
,
Grosse
C. U.
, and
Reinhardt
H.-W.
, “
Strategies for Reliable Automatic Onset Time Picking of Acoustic Emissions and of Ultrasound Signals in Concrete
,”
Ultrasonics
43
, no. 
7
(June
2005
):
538
546
, https://doi.org/10.1016/j.ultras.2004.12.005
30.
Hinkley
D. V.
, “
Inference About the Change-Point from Cumulative Sum Tests
,”
Biometrika
58
, no. 
3
(December
1971
):
509
523
, https://doi.org/10.1093/biomet/58.3.509
31.
Cheng
L.
,
Xin
H.
, and
Veljkovic
M.
, “
Acoustic Emission Source Location in I Girder Based on Experimental Study and Lamb Wave Propagation Simulation
,”
ce/papers
3
, nos. 
5–6
(December
2019
):
3
12
, https://doi.org/10.1002/cepa.1176
32.
Lasaygues
P.
,
Arciniegas
A.
, and
Brancheriau
L.
, “
Comparaison de méthodes de détection de temps de vol adaptées à la tomographie ultrasonore des arbres sur pied
,” in
Actes du 12ème Congrès français d’acoustique
(Poitiers, France: Congrès français d’acoustique),
715
719
.
33.
Tavassoti
P.
,
Ameen
T. H.
,
Baaj
H.
, and
Cascante
G.
, “
Novel Analysis of Ultrasonic Pulse Propagation Tests for Characterization of Asphalt Concrete
,”
Journal of Testing and Evaluation
50
, no. 
2
(March/April
2022
):
889
904
, https://doi.org/10.1520/JTE20210239
34.
Bituminous Mixtures—Test Methods—Part 6: Determination of Apparent Density of Bituminous Specimens
(in French), NF EN 12697-6 (Paris:
Association Française de Normalisation
,
2020
).
35.
Di Benedetto
H.
,
Olard
F.
,
Sauzéat
C.
, and
Delaporte
B.
, “
Linear Viscoelastic Behaviour of Bituminous Materials: From Binders to Mixes
,”
Road Materials and Pavement Design
5
, no. sup1 (
2004
):
163
202
, https://doi.org/10.1080/14680629.2004.9689992
36.
Olard
F.
and
Di Benedetto
H.
, “
General ‘2S2P1D’ Model and Relation between the Linear Viscoelastic Behaviours of Bituminous Binders and Mixes
,”
Road Materials and Pavement Design
4
, no. 
2
(
2003
):
185
224
, https://doi.org/10.1080/14680629.2003.9689946
37.
Ferry
J. D.
,
Viscoelastic Properties of Polymers
, 3rd ed. (
Hoboken, NJ
:
John Wiley & Sons
,
1980
).
38.
Bituminous Mixtures—Material Specifications—Part 1: Bituminous Coatings
(in French), NF EN 13108-1 (Paris:
Association Française de Normalisation
,
2007
)
39.
Bituminous Mixtures - Test Methods - Part 26: Modulus of Rigidity
(in French), NF EN 12697-26 (Paris:
Association Française de Normalisation
,
2018
).
40.
Omairey
E. L.
,
Zhang
Y.
,
Soenen
H.
, and
Carbonneau
X.
, “
Parametric Analysis and Field Validations of Oxidative Ageing in Asphalt Pavements Using Multiphysics Modelling Approaches
,”
International Journal of Pavement Engineering
24
, no. 
2
(
2023
): 2020267, https://doi.org/10.1080/10298436.2021.2020267
41.
Alanazi
N.
,
Kassem
E.
, and
Jung
S. J.
, “
Evaluation of the Anisotropy of Asphalt Mixtures
,”
Journal of Transportation Engineering, Part B: Pavements
144
, no. 
2
(June
2018
): 04018022, https://doi.org/10.1061/JPEODX.0000053
42.
Masad
E.
,
Tashman
L.
,
Somedavan
N.
, and
Little
D.
, “
Micromechanics-Based Analysis of Stiffness Anisotropy in Asphalt Mixtures
,”
Journal of Materials in Civil Engineering
14
, no. 
5
(October
2002
):
374
383
, https://doi.org/10.1061/(ASCE)0899-1561(2002)14:5(374)
43.
Wang
L.
,
Hoyos
L. R.
,
Wang
J.
,
Voyiadjis
G.
, and
Abadie
C.
, “
Anisotropic Properties of Asphalt Concrete: Characterization and Implications for Pavement Design and Analysis
,”
Journal of Materials in Civil Engineering
17
, no. 
5
(October
2005
):
535
543
, https://doi.org/10.1061/(ASCE)0899-1561(2005)17:5(535)
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