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B. Pan, Dafang Wu, Xia Yong (2012)
Incremental calculation for large deformation measurement using reliability-guided digital image correlationOptics and Lasers in Engineering, 50
Y. Wang, W. Tong (2013)
A high resolution DIC technique for measuring small thermal expansion of film specimensOptics and Lasers in Engineering, 51
J. Lyons, J. Liu, Michael Sutton (1996)
High-temperature deformation measurements using digital-image correlationExperimental Mechanics, 36
P. Chu, C. Marksberry, D. Saari (2005)
High Temperature Storage Heater Technology for Hypersonic Wind Tunnels and Propulsion Test Facilities
J. Turner, S. Russell (1990)
Application of digital image analysis to strain measurement at elevated temperatureStrain, 26
B. Pan (2009)
Reliability-guided digital image correlation for image deformation measurement.Applied optics, 48 8
M. Novak, F. Zok (2011)
High-temperature materials testing with full-field strain measurement: experimental design and practice.The Review of scientific instruments, 82 11
Bmb Grant, Howard Stone, Philip Withers, Michael Preuss (2009)
High-temperature strain field measurement using digital image correlationThe Journal of Strain Analysis for Engineering Design, 44
C. Sebastian, E. Patterson (2015)
Calibration of a digital image correlation systemExperimental Techniques, 39
Pan Bing, Xie Huimin, H. Tao, A. Asundi (2009)
Measurement of coefficient of thermal expansion of films using digital image correlation methodPolymer Testing, 28
K. Daryabeigi (2001)
INSULATION FOR RE-ENTRY AERODYNAMIC HEATING
B. Pan, K. Qian, H. Xie, A. Asundi (2009)
Two-dimensional digital image correlation for in-plane displacement and strain measurement: a reviewMeasurement Science and Technology, 20
S. Bouslog, B. Moore, R. Scanlon, J. Sawyer (1999)
X-33 Metallic TPS Tests in NASA-LaRC High Temperature Tunnel
Andrew Holguin, Chris Kostyk (2010)
Thermal Testing Facilities and Efforts at Dryden Flight Research Center
V. Deangelis, R. Fields (1990)
Techniques for hot structures testing
B. Pan, Dafang Wu, Yong Xia (2012)
An active imaging digital image correlation method for deformation measurement insensitive to ambient lightOptics and Laser Technology, 44
(1994)
An introduction to measurements using strain gages
B. Pan, Dafang Wu, Liping Yu (2012)
Optimization of a three-dimensional digital image correlation system for deformation measurements in extreme environments.Applied optics, 51 19
B. Pan, Dafang Wu, Zhaoyang Wang, Yong Xia (2010)
High-temperature digital image correlation method for full-field deformation measurement at 1200 °CMeasurement Science and Technology, 22
B. Pan, Liping Yu, Dafang Wu (2013)
High-Accuracy 2D Digital Image Correlation Measurements with Bilateral Telecentric Lenses: Error Analysis and Experimental VerificationExperimental Mechanics, 53
Wu Da (2003)
Experimental Simulation System of Transient Aerodynamic Heating for High-speed Flight VehicleAviation Metrology & Measurement Technology
Shaopeng Ma, Jiazhi Pang, Q. Ma (2012)
The systematic error in digital image correlation induced by self-heating of a digital cameraMeasurement Science and Technology, 23
B. Pan, Dafang Wu, Yong Xia (2010)
High-temperature deformation field measurement by combining transient aerodynamic heating simulation system and reliability-guided digital image correlationOptics and Lasers in Engineering, 48
A technique for non-contact and full-field high-temperature strain measurement of a sample subjected to radiation heating using active imaging digital image correlation is described in this work. A high-performance quartz lamp heater system was designed to reproduce transient thermal environments experienced by hypersonic vehicles. The digital images of the test sample surface at various temperatures are captured using a novel active imaging optical system based on a combination of monochromatic light illumination and bandpass filter imaging. Subsequently, the captured images are processed by a robust reliability-guided displacement tracking algorithm with an automatic reference image updating scheme to extract full-field thermal deformation. With the improvements made in both the imaging system and correlation algorithm, the de-correlation problem of speckle patterns caused by the thermal radiation and surface oxidation of the heated test object are effectively addressed, enabling reliable deformation measurement in extremely high temperature environments. The performance of the proposed active imaging digital image correlation technique is verified by two experiments: (1) measurement of the uniform thermal strains of a chromium–nickel austenite stainless steel sample which is heated from room temperature to 1300 °C, and (2) measurement of the non-uniform thermal strain fields of a woven C/SiC composite at 1550 °C. The test results show that the active imaging digital image correlation is an easy-to-implement yet effective optical technique for high-temperature strain measurement, and has great potential in characterizing thermo-mechanical behaviour of materials and structures for hypersonic vehicles. Limitations and potential improvements of the present technique are also discussed.
The Journal of Strain Analysis for Engineering Design – SAGE
Published: May 1, 2014
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