Description
This research examines several critical aspects of the so-called "film induced cleavage" model of stress corrosion cracking using silver-gold alloys as the parent-phase material. The model hypothesizes that the corrosion generates a brittle nanoporous film, which subsequently fractures forming a high-speed crack that is injected into the uncorroded parent-phase alloy. This high speed crack owing to its kinetic energy can penetrate beyond the corroded layer into the parent phase and thus effectively reducing strength of the parent phase.
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Contributors
- Badwe, Nilesh (Author)
- Sieradzki, Karl (Thesis advisor)
- Peralta, Pedro (Committee member)
- Oswald, Jay (Committee member)
- Mahajan, Ravi (Committee member)
- Arizona State University (Publisher)
Date Created
- 2014
Subjects
- Materials Science
- Mechanical Engineering
- film induced cleavage
- Fracture
- Mechanical Properties
- nanoporous gold
- stress corrosion cracking
- Porous materials
- Nanostructured materials
- Metallic films
- Silver-gold alloys--Corrosion--Mathematical models.
- Silver-gold alloys
- Silver-gold alloys--Cracking--Mathematical models.
- Silver-gold alloys
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Note
- Partial requirement for: Ph.D., Arizona State University, 2014Note typethesis
- Includes bibliographical references (p. 110-111)Note typebibliography
- Field of study: Materials science and engineering
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by Nilesh Badwe