Closed-form solutions for non-uniform axially loaded Rayleigh cantilever beams

Authors

• Korak Sarkar, Indian Institute of Science
• Ranjan Ganguli, Indian Institute of Science
• Isaac Elishakoff, Florida Atlantic University

Author Type

Outside Researcher

Co-Author Type 1

Outside Researcher

Co-Author Type 2

Faculty

Co-Author Type 3

Outside Researcher

College

Engineering and Computer Science

Department

Ocean and Mechanical Engineering

Document Type

Article

Publication/Event/Conference Title

Structural Engineering and Mechanics

Publication Status

Version of Record

Abstract

In this paper, we investigate the free vibration of axially loaded non-uniform Rayleigh cantilever beams. The Rayleigh beams account for the rotary inertia effect which is ignored in Euler-Bernoulli beam theory. Using an inverse problem approach we show, that for certain polynomial variations of the mass per unit length and the flexural stiffness, there exists a fundamental closed form solution to the fourth order governing differential equation for Rayleigh beams. The derived property variation can serve as test functions for numerical methods. For the rotating beam case, the results have been compared with those derived using the Euler-Bernoulli beam theory.

First Page

455

Last Page

470

DOI

10.12989/sem.2016.60.3.455

Publication Date

11-10-2016

Recommended Citation

Sarkar, Korak; Ganguli, Ranjan; and Elishakoff, Isaac, "Closed-form solutions for non-uniform axially loaded Rayleigh cantilever beams" (2016). Faculty Scholarship. 290.
https://digitalcommons.fau.edu/faculty_papers/290