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7 September 2001 Slow crack growth and fracture toughness of sapphire for a window application
Jonathan A. Salem, Lynn M. Powers, Robert Allen, Anthony Calomino
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Proceedings Volume 4375, Window and Dome Technologies and Materials VII; (2001) https://doi.org/10.1117/12.439192
Event: Aerospace/Defense Sensing, Simulation, and Controls, 2001, Orlando, FL, United States
Abstract
The slow crack growth parameters, fracture toughness, and inert strength of the r-and a-planes of sapphire were measured in water in order to perform a life prediction on a pressurized sapphire window. The window is being considered for use in a combustion chamber on the International Space Station. Sapphire is relatively susceptible to stress corrosion in water despite a large strength in the absence of humidity. Two life prediction approaches were considered: a deterministic fracture mechanics approach and a Weibull based reliability approach. Preliminary results indicate that the window is feasible if a short finish is avoided. Fractography and additional predictions are being performed.
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Jonathan A. Salem, Lynn M. Powers, Robert Allen, and Anthony Calomino "Slow crack growth and fracture toughness of sapphire for a window application", Proc. SPIE 4375, Window and Dome Technologies and Materials VII, (7 September 2001); https://doi.org/10.1117/12.439192
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KEYWORDS
Sapphire
Supercontinuum generation
Failure analysis
Nitrogen
Polishing
Reliability
Combustion
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