Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by Crossref.
Halleux, J. P.
1989.
Advances in Computational Nonlinear Mechanics.
p.
81.
Reinhardt, W. D.
and
Dubey, R. N.
1996.
Application of Objective Rates in Mechanical Modeling of Solids.
Journal of Applied Mechanics,
Vol. 63,
Issue. 3,
p.
692.
Xiao, H.
Bruhns, O. T.
and
Meyers, A.
2000.
The choice of objective rates in finite elastoplasticity: general results on the uniqueness of the logarithmic rate.
Proceedings of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences,
Vol. 456,
Issue. 2000,
p.
1865.
Gambirasio, Luca
Chiantoni, Guido
and
Rizzi, Egidio
2016.
On the Consequences of the Adoption of the Zaremba–Jaumann Objective Stress Rate in FEM Codes.
Archives of Computational Methods in Engineering,
Vol. 23,
Issue. 1,
p.
39.
Soldatos, D.
and
Triantafyllou, S. P.
2016.
Logarithmic Spin, Logarithmic Rate and Material Frame-Indifferent Generalized Plasticity.
International Journal of Applied Mechanics,
Vol. 08,
Issue. 05,
p.
1650060.
Korobeynikov, Sergey
and
Larichkin, Alexey
2023.
Objective Algorithms for Integrating Hypoelastic Constitutive Relations Based on Corotational Stress Rates.
p.
1.
Korobeynikov, Sergey
and
Larichkin, Alexey
2023.
Objective Algorithms for Integrating Hypoelastic Constitutive Relations Based on Corotational Stress Rates.
p.
9.
Korobeynikov, Sergey N.
and
Larichkin, A. Yu.
2023.
Simulating body deformations with initial stresses using Hooke‐like isotropic hypoelasticity models based on corotational stress rates.
ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik,