Paradoxes of differential nonlocal cantilever beams: Reasons and a novel solution.
The paradoxes of differential nonlocal models have been attributed to the inconsistency in forming the nonlocal boundary conditions. To overcome these paradoxes, nonlocal boundary conditions should be correctly formed. However, still forming these boundary conditions for differential nonlocal models is a challenging task. To resolve the trouble, in this study, the iterative nonlocal residual approach is employed. In the context of this approach, the field equation is solved in the local field with an imposed nonlocal residuals. This nonlocal residual is iteratively formed (not determined) depending on a pre-determined local field. The iterative nonlocal residual approach permits applying the local boundary conditions. Thus, the paradoxes of differential nonlocal models due to the nonlocal boundary conditions are effectively solved. The paradoxes of differential nonlocal models and reasons behind them are discussed. Moreover, a nonlocal beam model based on the iterative nonlocal residual approach is proposed. This nonlocal beam model is employed to investigate the static bending and free vibration of differential nonlocal cantilever beams. Comparisons between the results of the iterative nonlocal residual approach and results of integral nonlocal beam models are carried out. It is demonstrated that the iterative nonlocal residual approach gives the same results as integral nonlocal models.
Publisher URL: http://arxiv.org/abs/1802.01494
DOI: arXiv:1802.01494v1
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