This investigation determined the effect of specimen out-of-plane movement on the accuracy of strain measurement made applying two-dimensional (2D) and three-dimensional (3D) measurement approaches using the representative, state-of-the-art digital image correlation (DIC)-based tool ARAMIS. DIC techniques can be used in structural health monitoring (SHM) by measuring structural strains and correlating them to structural damage. This study was motivated by initially undetected damage at low strains in connections of a real-world bridge, whose detection would have prevented its propagation, resulting in lower repair costs. This study builds upon an initial investigation that concluded that out-of-plane specimen movement results in noise in DIC-based strain measurements. The effect of specimen out-of-plane displacement on the accuracy of strain measurements using the 2D and 3D measurement techniques was determined over a range of strain values and specimen out-of-plane displacements. Based upon the results of this study, the 2D system could measure strains as camera focus was being lost, and the effect of the loss of focus became apparent at 1.0 mm beam out-of-plane displacement while measuring strain of the order of magnitude of approximately 0.12%. The corresponding results for the 3D system demonstrate that the beam out-of-plane displacement begins to affect the accuracy of the strain measurements at approximately 0.025% strain for all magnitudes of out-of-plane displacement, and the 3D ARAMIS system can make accurate strain measurements at up to 2.5 mm amplitude at this strain. Finally, based upon the magnitudes of strain and out-of-plane displacement amplitudes that typically occur in real steel bridges, it is advisable to use the 3D system for SHM of stiff structures instead of the 2D system.

References

1.
Desai
,
N.
,
2016
, “
Small-Strain Measurement in Bridges Using the Digital Image Correlation (DIC) Technique
,”
Proc. SPIE
,
9805
, p.
980530
.
2.
Desai
,
N.
,
Georgakis
,
C.
, and
Fischer
,
G.
,
2016
, “
A Comparison Between the Minimum Resolutions of Two Digital Image Correlation-Based Tools in Making Strain Measurements
,”
Fifth IAJC-ISAM International Conference,
Orlando, FL, Nov. 6–8, Paper No.
093
.http://cd16.iajc.org/wp-content/uploads/Camera-ready-papers/093-x-16___A%20Comparison%20Between%20the%20Minimum%20Resolutions%20of%20Two%20Digital%20Image%20_REVISED--Desai%2C%20Georgakis%2C%20Fischer_.pdf
3.
Desai
,
N.
,
Georgakis
,
C.
, and
Fischer
,
G.
,
2016
, “
A Comparison Between the Minimum Resolutions of Two Digital Image Correlation-Based Tools in Making Strain Measurements
,”
Int. J. Eng. Res. Innovation
,
8
(
2
), pp.
113
126
.
4.
Jiang
,
R.
,
Jauregui
,
D. V.
, and
White
,
K. R.
,
2008
, “
Close-Range Photogrammetry Applications in Bridge Measurement: Literature Review
,”
Meas.: J. Int. Meas. Confed.
,
41
(
8
), pp.
823
834
.
5.
Poling
,
J.
, and
Desai
,
N.
,
2017
, “Effect of Out-of-Plane Specimen Movement on the Accuracy of the Smallest Specimen Strain Measurable Using the Digital Image Correlation Technique,”
Proc. SPIE
,
10170
, p. 101702L.http://dx.doi.org/10.1117/12.2258496
6.
Desai
,
N.
,
Poling
,
J.
,
Fischer
,
G.
, and
Georgakis
,
C.
,
2017
, “
Small Strain Measurement Using Digital Image Correlation-Based iMETRUM in a Specimen Subjected to Out-of-Plane Movement
,”
Fifth Annual International Conference on Architecture and Civil Engineering (ACE)
, Singapore, May 8–9, pp. 164–183.
7.
GOM, 2017, “ARAMIS,” GOM GmbH, Braunschweig, Germany, accessed Dec. 19, 2017, http://www.gom.com/metrology-systems/aramis.html
8.
Matsumoto
,
T.
, and
Motomura
,
S.
,
1984
, “Test of Welding Technique for Repair of Steel Highway Bridges,” Transportation Research Board, National Research Council, Washington, DC, Transportation Research Record No. 950, pp.
157
163
.
9.
U. S. Department of Transportation
,
2012
, “Steel Bridge Design Handbook: Bridge Steels and Their Mechanical Properties,” Vol. 1, U. S. Department of Transportation, Federal Highway Administration, Washington, DC, Publication No.
FHWA-IF-12-052
.https://www.fhwa.dot.gov/bridge/steel/pubs/if12052/volume01.pdf
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