Open AccessOSM-Classic: An optical imaging technique for accurately determining strain
Author(s) -
Daniel R. Aldrich,
Cagri Ayranci,
David S. Nobes
Publication year - 2017
Publication title -
softwarex
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.528
H-Index - 21
ISSN - 2352-7110
DOI - 10.1016/j.softx.2017.08.007
Subject(s) - extensometer , strain gauge , computer science , software , sample (material) , matlab , interface (matter) , graphical user interface , strain (injury) , image processing , measure (data warehouse) , materials science , artificial intelligence , data mining , image (mathematics) , physics , medicine , bubble , maximum bubble pressure method , parallel computing , composite material , thermodynamics , programming language , operating system
OSM-Classic is a program designed in Matlab ® to provide a method of accurately determining strain in a test sample using an optical imaging technique. Measuring strain for the mechanical characterization of materials is most commonly performed with extensometers, LVDT (linear variable differential transistors), and strain gauges; however, these strain measurement methods suffer from their fragile nature and it is not particularly easy to attach these devices to the material for testing. To alleviate these potential problems, an optical approach that does not require contact with the specimen can be implemented to measure the strain. OSM-Classic is a software that interrogates a series of images to determine elongation in a test sample and hence, strain of the specimen. It was designed to provide a graphical user interface that includes image processing with a dynamic region of interest. Additionally, the stain is calculated directly while providing active feedback during the processing
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