msepostdoc-list SEMINAR REMINDER: Ozgur Keles PhD Final Exam, Tue. 4/2/13, 8:30 am, ARMS 1028
Stacey, Lisa A
staceyl at purdue.edu
Mon Apr 1 13:22:12 EDT 2013
Please see seminar info below for tomorrow:
MATERIALS SCIENCE AND ENGINEERING
SEMINAR
Modeling Failure of Brittle Porous Ceramics
By:
Özgür Keleş
Ph.D. Final Examination
Co-Advisors:
Prof. R. E. Garcia & Prof. K. J. Bowman
ABSTRACT
Brittle porous materials (BPMs) are used for battery, fuel cell, catalyst, membrane, filter, bone graft, and pharmacy applications due to the multi-functionality of their underlying porosity. However, in spite of its technological benefits the effects of porosity on BPM fracture strength and Weibull statistics are not fully understood--limiting a wider use. In this context, a two-dimensional finite element (FE) simulation-based approach was developed to assess the pore--pore interactions and their impact on fracture statistics of isotropic microstructures. The classical fracture mechanics approach was combined with FE simulations that account for the interactions to predict the decrease in the fracture stress with increasing porosity. Simulations show that even the microstructures with the same porosity level and size of pores differ substantially in fracture strength. The maximum reliability of BPMs was shown to be limited by the underlying pore--pore interactions. BPM fracture strength decreases at a faster rate under biaxial loading than under uniaxial loading. Three different types of deviation from classic Weibull behavior are identified: P-type corresponding to a positive lower tail deviation, N-type corresponding to a negative lower tail deviation, and S-type corresponding to both positive upper and lower tail deviations. Pore-pore interactions result in either P-type or N-type deviation in the limit of low porosity. Whereas, S-type behavior occurs when clusters of low and high fracture strengths coexist in a fracture data.
Date: Tuesday, April 2, 2013
Time: 8:30 A.M.
Place: ARMS 1028
Thank you,
Lisa Stacey
Secretary/Development Assistant
Purdue University
School of Materials Engineering
765/494-4100
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