skip to main content
OSTI.GOV title logo U.S. Department of Energy
Office of Scientific and Technical Information

Title: Correcting for digital image correlation speckle inversion at high temperature using color cameras

Journal Article · · Applied Optics
DOI:https://doi.org/10.1364/AO.463480· OSTI ID:1887483
; ; ; ; ; ORCiD logo

Digital image correlation (DIC) is a popular, noncontacting technique to measure full-field deformation by using cameras to track the motion of an applied surface pattern. Because it is noncontacting, DIC can be performed for extreme temperature applications (e.g., hot-fire rocket testing of carbon composite rocket nozzles) under harsh conditions during which bonded gauges are damaged. Speckle pattern inversion is a phenomenon that sometimes occurs while performing high-temperature DIC. During speckle pattern inversion, portions of the surface pattern that were initially darker at room temperature (e.g., graphite) may emit more light due to blackbody radiation than the portions that were initially paler, thereby producing images in which the pattern appears inverted at high temperature relative to the initial pattern at room temperature. This phenomenon can prevent the correlation algorithm from being able to resolve the displacements between images. This work compares three methods to mitigate speckle pattern inversion: (A) the subtraction method, a recently-published technique in which two high-temperature images are subtracted to remove unwanted light; (B) the filtering method, a popular technique in which optical bandpass filters screen out unwanted light; and (C) the histogram rescaling method, a proposed new method that pairs a color camera with a blue light source and uses information from the green sensor of the camera to correct against inversion in the blue sensor through postprocessing. The histogram rescaling method is shown to successfully eliminate speckle pattern inversion and has the added advantages that it does not require quasi-static loading to be able to compensate for speckle pattern inversion, nor does it impose thick-glass distortions caused by the optical filter.

Sponsoring Organization:
USDOE
Grant/Contract Number:
NE0008531; NE0008799
OSTI ID:
1887483
Journal Information:
Applied Optics, Journal Name: Applied Optics Vol. 61 Journal Issue: 27; ISSN 1559-128X
Publisher:
Optical Society of AmericaCopyright Statement
Country of Publication:
United States
Language:
English

References (23)

The Effect of Bit Depth on High-Temperature Digital Image Correlation Measurements journal June 2022
Speckle Pattern Inversion in High Temperature DIC Measurement journal May 2021
Ultraviolet Diffraction Assisted Image Correlation (UV-DAIC) for Single-Camera 3D Strain Measurement at Extreme Temperatures journal April 2018
3D digital image correlation using single color camera pseudo-stereo system journal October 2017
An error elimination method for high-temperature digital image correlation using color speckle and camera journal May 2019
A high magnification UV lens for high temperature optical strain measurements journal April 2019
High speed ultraviolet digital image correlation (UV-DIC) for dynamic strains at extreme temperatures journal August 2022
Full-frame, high-speed 3D shape and deformation measurements using stereo-digital image correlation and a single color high-speed camera journal August 2017
Strain field measurements over 3000 °C using 3D-Digital image correlation journal April 2020
Importance of Exposure Time on DIC Measurement Uncertainty at Extreme Temperatures journal February 2019
Measurement of high temperature full-field strain up to 2000 °C using digital image correlation journal January 2017
High-temperature materials testing with full-field strain measurement: Experimental design and practice journal November 2011
High temperature displacement and strain measurement using a monochromatic light illuminated stereo digital image correlation system journal November 2012
Digital Image Correlation Techniques Applied to Large Scale Rocket Engine Testing conference July 2016
Ultraviolet digital image correlation (UV-DIC) for high temperature applications journal April 2014
How light emitted at high temperature affects common digital image correlation algorithms journal October 2021
Global digital image correlation up to very high temperatures with grey level corrections journal November 2019
Ultrasensitive video extensometer using single-camera dual field-of-view telecentric imaging system journal September 2019
Carbon-Carbon Nozzle Extension Development in Support of In-space and Upper-Stage Liquid Rocket Engines conference July 2017
Change of exposure time mid-test in high temperature DIC measurement journal April 2020
Digital image correlation at long working distances: The influence of diffraction limits journal February 2022
Color Stereo-Digital Image Correlation Method Using a Single 3CCD Color Camera journal February 2017
Image Correlation for Shape, Motion and Deformation Measurements book March 2009

Similar Records

High speed ultraviolet digital image correlation (UV-DIC) for dynamic strains at extreme temperatures
Journal Article · Wed Aug 17 00:00:00 EDT 2022 · Review of Scientific Instruments · OSTI ID:1887483
+3 more
Method for conducting in situ high-temperature digital image correlation with simultaneous synchrotron measurements under thermomechanical conditions
Journal Article · Thu Mar 05 00:00:00 EST 2020 · Review of Scientific Instruments · OSTI ID:1887483
+7 more
In situ strain and temperature measurement and modelling during arc welding
Journal Article · Fri Dec 26 00:00:00 EST 2014 · Science and Technology of Welding and Joining · OSTI ID:1887483
+1 more

Related Subjects