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- Title
Crack Initiation of Printed Lines Predicted with Digital Image Correlation.
- Authors
Katsarelis, C.; Kennedy, M. S.; Glushko, O.; Cordill, M. J.; Tonkin, C.
- Abstract
Printing of metallic films has been preferred over vacuum technologies for roll-to-roll processes because of faster processing times and lower processing costs. Films can be produced by depositing inks containing suspended metallic particles within a solvent and then heating the films to both remove the solvent and sinter the particles. The resulting printed structure and electrical and mechanical behavior of the printed films has been studied to better understand their electro-mechanical response to loading and eventual brittle fracture. This study evaluated the electro-mechanical behavior of 1.25-μm printed Ag films using in situ resistance and in situ imaging methods. Digital image correlation was utilized with confocal laser scanning microscope images to better visualize crack initiation during tensile straining. This technique showed that cracks initiated earlier in the thicker areas of the film (crests) than in lower areas (troughs) because of a higher density of printing defects and the increased thickness.
- Subjects
FILMSTRIPS; TENSILE strength; ELECTRONICS; VACUUM; METALS
- Publication
JOM: The Journal of The Minerals, Metals & Materials Society (TMS), 2018, Vol 70, Issue 9, p1805
- ISSN
1047-4838
- Publication type
Article
- DOI
10.1007/s11837-018-2969-y