English

The maximum force in a column under constant speed compression

Classical Physics 2017-08-01 v1

Abstract

Dynamic buckling of an elastic column under compression at constant speed is investigated assuming the first-mode buckling. Two cases are considered: (i) an imperfect column (Hoff's statement), and (ii) a perfect column having an initial lateral deflection. The range of parameters, where the maximum load supported by a column exceeds Euler static force is determined. In this range, the maximum load is represented as a function of the compression rate, slenderness ratio, and imperfection/initial deflection. Considering the results we answer the following question: "How slowly the column should be compressed in order to measure static load-bearing capacity?" This question is important for the proper setup of laboratory experiments and computer simulations of buckling. Additionally, it is shown that the behavior of a perfect column having an initial deflection differ significantlys form the behavior of an imperfect column. In particular, the dependence of the maximum force on the compression rate is non-monotonic. The analytical results are supported by numerical simulations and available experimental data.

Keywords

Cite

@article{arxiv.1511.01358,
  title  = {The maximum force in a column under constant speed compression},
  author = {Vitaly A. Kuzkin and Mona M. Dannert},
  journal= {arXiv preprint arXiv:1511.01358},
  year   = {2017}
}

Comments

11 pages, 4 figures

R2 v1 2026-06-22T11:37:31.287Z