Full Field Study of Strain Distribution Near the Crack Tip in the Fracture of Solid Propellants Via Large Strain Digital Image Correlation and Optical Microscopy

Author: Gonzalez, Javier Gonzalez

Year: 1997

Degree: Engineer's thesis

Advisor: Knauss, Wolfgang Gustav

Committee Members: Knauss, Wolfgang Gustav; Ravichandran, Guruswami; Shepherd, Joseph E.

Option: Aeronautics

DOI: 10.7907/HRM1-RJ74

Abstract

A full field method for visualizing deformation around the crack tip in a fracture process with large strains is developed. A digital image correlation program (DIC) is used to incrementally compute strains and displacements between two consecutive images of a deformation process. Values of strain and displacements for consecutive deformations are added, this way solving convergence problems in the DIC algorithm when large deformations are investigated. The method developed is used to investigate the strain distribution within 1 mm of the crack tip in a particulate composite solid (propellant) using microscopic visualization of the deformation process.

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