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1.
A microstructure based fatigue life prediction framework and its validation
by Yeratapally, Saikumar Reddy, Ph.D.  Purdue University. 2015: 168 pages; 10062899.
2.
The role of twin boundaries in fatigue microcrack initiation in an advanced nickel-based alloy
by Stein, Clayton A., Ph.D.  Carnegie Mellon University. 2015: 111 pages; 3746533.
3.
Fatigue enhancement of undersized, drilled crack-arrest holes
by Simmons, Gary G., Ph.D.  University of Kansas. 2013: 497 pages; 3604779.
5.
Fatigue Characteristics of New ECO Series Aluminum 7175 Alloy
by Vu, Chinh QL, Ph.D.  Portland State University. 2019: 131 pages; 13812290.
6.
Fatigue Life and Crack Growth Predictions of Irradiated Stainless Steels
by Fuller, Robert William, Ph.D.  Mississippi State University. 2018: 182 pages; 10747959.
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Hydraulic Fracture Initiation and Propagation Under Subcritical Conditions
by Lu, Guanyi, Ph.D.  University of Pittsburgh. 2018: 146 pages; 11003772.
10.
Fatigue Behavior and Microstructure of Direct Laser Deposited Inconel 718 Alloy
by Johnson, Alexander Scott, M.S.  Mississippi State University. 2017: 75 pages; 10267788.
11.
Beneficial Tensile Mean Strain Effects on the Fatigue Behavior of Superelastic NiTi
by Rutherford, Benjamin Andrew, M.S.  Mississippi State University. 2017: 89 pages; 10266594.
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Micromechanics Based Failure Analysis of Heterogeneous Materials
by Sertse, Hamsasew M., Ph.D.  Purdue University. 2017: 176 pages; 10689831.
17.
Estimation of probability of failure for damage-tolerant aerospace structures
by Halbert, Keith, Ph.D.  Temple University. 2014: 192 pages; 3623167.
18.
Amorphous Intergranular Film Design Criteria and Application as Damage Tolerant Features in Nanocrystalline Alloys
by Schuler, Jennifer Dolores, Ph.D.  University of California, Irvine. 2019: 169 pages; 13895922.
19.
Fatigue analysis of steel bridge details: Hot spot stress approach
by Bhargava, Ashish, Ph.D.  The George Washington University. 2010: 235 pages; 3397308.
20.
Fracture and fatigue of ultrathin nanoporous polymer films
by Kearney, Andrew V., Ph.D.  Stanford University. 2008: 128 pages; 3313821.
21.
A Finite Element-based Adaptive Energy Response Function Method for Curvilinear Progressive Fracture
by Wagner, David, Ph.D.  The University of Texas at San Antonio. 2018: 181 pages; 10845946.
22.
Reliability-based fatigue assessment of mast-arm sign support structures
by Diekfuss, Joseph A., Ph.D.  Marquette University. 2013: 423 pages; 3560292.
23.
Lifetime prediction modeling of airfoils for advanced power generation
by Karaivanov, Ventzislav Gueorguiev, Ph.D.  University of Pittsburgh. 2009: 129 pages; 3384974.
24.
Tolerable strains for HMA overlays over concrete pavements
by Gautam, Ashwani, M.S.  University of Kansas. 2009: 102 pages; 1465378.
25.
Cracking in Asphalt Pavements: Impact of Component Properties and Aging on Fatigue and Thermal Cracking
by Rahbar-Rastegar, Reyhaneh, Ph.D.  University of New Hampshire. 2017: 179 pages; 10622119.
26.
Statistical microstructure generation and 3D microstructure geometry extraction
by Sintay, Stephen D., Ph.D.  Carnegie Mellon University. 2010: 175 pages; 3421737.
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Fracture Mechanics of Nanostructured Polymer Blends with Janus Particles
by Bahrami, Ronak, Eng.D.  Universitaet Bayreuth (Germany). 2018: 173 pages; 10990838.
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