References

[DPL19]
P. Diehl, S. Prudhomme and M. Lévesque. A Review of Benchmark Experiments for the Validation of Peridynamics Models. Journal of Peridynamics and Nonlocal Modeling 1, 14–35 (2019).
[JMS19]
A. Javili, A. McBride and P. Steinmann. Continuum-kinematics-inspired peridynamics. Mechanical problems. Journal of the Mechanics and Physics of Solids 131 (2019).
[JMOO19]
A. Javili, R. Morasata, E. Oterkus and S. Oterkus. Peridynamics review. Mathematics and Mechanics of Solids 24, 3714–3739 (2019).
[MO14]
E. Madenci and E. Oterkus. Peridynamic Theory and Its Applications (Springer New York, New York, 2014).
[PDW24]
K. Partmann, M. Dienst and K. Weinberg. Peridynamic computations of wave propagation and reflection at material interfaces. Archive of Applied Mechanics (2024).
[Sil00]
S. A. Silling. Reformulation of elasticity theory for discontinuities and long-range forces. Journal of the Mechanics and Physics of Solids 48, 175–209 (2000).
[SEW+07]
S. A. Silling, M. Epton, O. Weckner, J. Xu and E. Askari. Peridynamic States and Constitutive Modeling. Journal of Elasticity 88, 151–184 (2007). Accessed on Oct 15, 2020.
[SA05]
S. Silling and E. Askari. A meshfree method based on the peridynamic model of solid mechanics. Computers & Structures 83, 1526–1535 (2005).
[SB05]
S. Silling and F. Bobaru. Peridynamic modeling of membranes and fibers. International Journal of Non-Linear Mechanics 40, 395–409 (2005).
[TS20]
J. Trageser and P. Seleson. Bond-Based Peridynamics: a Tale of Two Poisson's Ratios. Journal of Peridynamics and Nonlocal Modeling 2, 278–288 (2020).