by Pereira, Tais Rocha, Patterson, Albert, Lee, Yong Hoon and Messimer, Sherri L.
Abstract:
This technical note discusses the theoretical static buckling load of thin-walled plastic cylinders under axial and radial loading. While the buckling of thin-walled cylinders is a well-researched topic, a variety of new design and manufacturing methods, as well as advances in polymer technologies, have brought plastic structures into prominence in recent years, necessitating a re-examination and exploration of their behavior under buckling loads. This work provides a background review of the problem, a discussion of the appropriate buckling equations, an extensive case study to demonstrate the concepts, and a brief review of some previously developed thin-walled structure reinforcement techniques. The presented work and results are intended to provide a helpful perspective, background review, and starting place for future research on the buckling behavior of thin plastic structures.
Reference:
Tais Rocha Pereira, Albert Patterson, Yong Hoon Lee, Sherri L. Messimer, "Critical buckling load of thin-walled plastic cylinders in axial and radial loading: overview and FEA case study", engrXiv, August 2019.
Bibtex Entry:
@techreport{Patterson2019EngrXiv, author = "Pereira, Tais Rocha and Patterson, Albert and Lee, Yong Hoon and Messimer, Sherri L.", title = "Critical buckling load of thin-walled plastic cylinders in axial and radial loading: overview and {FEA} case study", institution = "engrXiv", year = "2019", month = aug, day = "12", % number = "", % pages = "", % pdf = "", doi = "10.31224/osf.io/2mtfu", gsid = "6130785007603198688", % comment = "", abstract = "This technical note discusses the theoretical static buckling load of thin-walled plastic cylinders under axial and radial loading. While the buckling of thin-walled cylinders is a well-researched topic, a variety of new design and manufacturing methods, as well as advances in polymer technologies, have brought plastic structures into prominence in recent years, necessitating a re-examination and exploration of their behavior under buckling loads. This work provides a background review of the problem, a discussion of the appropriate buckling equations, an extensive case study to demonstrate the concepts, and a brief review of some previously developed thin-walled structure reinforcement techniques. The presented work and results are intended to provide a helpful perspective, background review, and starting place for future research on the buckling behavior of thin plastic structures.", }