[1] Zimmermann, M., 2005, “A Continuum Theory with Long-Range Forces for Solids,” PhD Dissertation, Mechanical Engineering, Massachusetts Institute of Technology.

[2] Dayal, K., 2007, “Nonlocal Microstructural Mechanics of Active Materials,” PhD Dissertation, California Institute of Technology.

[3] Kilic, B., 2008, “Peridynamic Theory for Progressive Failure Prediction in Homogeneous and Heterogeneous Materials,” PhD Dissertation, Mechanical Engineering, University of Arizona.

[4] Taylor, M. J., 2008, “Numerical Simulation of Thermo-elasticity, Inelasticity and Rupture in Membrane Theory,” PhD Dissertation, Mechanical Engineering, University of California, Berkeley, California.

[5] Alali, B., 2008, “Multiscale Analysis of Heterogeneous Media for Local and Nonlocal Continuum Theories,” PhD Dissertation, Mathematics, Louisiana State University.

[6] Sau, N., 2008, “Peridynamic Modeling of Quasibrittle Structures,” PhD Dissertation, Civil Engineering, University of New Mexico.

[7] Foster, J. T., 2009, “Dynamic Crack Initiation Toughness: Experiments and Peridynamic Modeling,” PhD Dissertation, Purdue University, West Lafayette, Indiana.

[8] Celik, E., 2010, “Mechanical Characterization of Metallic Nanowires by Using a Customized Atomic Microscope,” PhD Dissertation, Mechanical Engineering, University of Arizona.

[9] Seleson, P. D., 2010, “Peridynamic Multiscale Models for the Mechanics of Materials: Constitutive Relations, Upscaling from Atomistic Systems, and Interface Problems,” PhD Dissertation, Florida State University.

[10] Oterkus, E., 2010, “Peridynamic Theory for Modeling Three-Dimensional Damage Growth in Metallic and Composite Structures,” PhD Dissertation, Department of Aerospace and Mechanical Engineering, University of Arizona, Tucson, AZ.

[11] Yu, K., 2011, “Enhanced Integration Methods for the Peridynamic Theory,” PhD Dissertation, Kansas State University, Manhattan, Kansas.

[12] Evangelatos, G. I., 2011, “Non Local Mechanics in the Time and Space Domain-Fracture Propagation via Peridynamics Formulation: A Stochastic\Deterministic Perspective,” PhD Dissertation, Rice University, Houston, Texas.

[13] Duangpanya, M., 2011, “A Peridynamic Formulation for Transient Heat Conduction in Bodies with Evolving Discontinuties,” PhD Dissertation, Department of Engineering Mechanics, University of Nebraska, Lincoln.

[14] Park, H., 2011, “Crack Propagation through Adhesive Interface in Glass Driven by Dynamic Loading,” PhD Dissertation, Purdue University, West Lafayette, Indiana.

[15] Agwai, A. G., 2011, “A Peridynamic Approach for Coupled Fields,” PhD Dissertation, Mechanical Engineering, University of Arizona.

[16] Hu, W., 2012, “Peridynamic Models for Dynamic Brittle Fracture,” PhD Dissertation, University of Nebraska, Lincoln.

[17] Colavito, K. W., 2013, “Peridynamics for Failure and Residual Strength Prediction of Fiber-Reinforced Composites,” PhD Dissertation, Mechanical Engineering, University of Arizona.

[18] Oterkus, S., 2015, “Peridynamics for the Solution of Multiphysics Problems,” PhD Dissertation, Mechanical Engineering, University of Arizona.

[19] Bang, D., 2016, “Peridynamic Modeling of Hyperelastic Materials,” PhD Dissertation, Mechanical Engineering, University of Arizona.

[20] Diyaroglu, C., 2016, “Peridynamics and Its Applications in Marine Structures,” PhD Dissertation, University of Strathclyde, Glasgow.