Nonlinear Large Deformation Theory of Composite Arches Using Truncated Rotations

Author

Daniel A. Miller II

Date of Award

12-1993

Document Type

Thesis

Degree Name

Master of Science in Aeronautical Engineering

Department

Department of Aeronautics and Astronautics

First Advisor

Anthony N. Palazotto, PhD

Abstract

This research has been directed toward capturing large cross sectional rotation during bending of composite arches. A potential energy based nonlinear finite element model that incorporates transverse shear strain was modified to include large bending rotations. Large rotation kinematics were derived in a vector format leading to nonlinear strain that was decomposed into convenient forms for inclusion in the potential energy function. Problem discretization resulted in a finite element model capable of large deformations. Riks method and displacement control solution techniques were used. Numerous problems and examples were compared and analyzed. Code vectorization and parallelization were briefly examined to improve computational efficiency.

AFIT Designator

AFIT-GAE-ENY-93D-22

DTIC Accession Number

ADA273726

Comments

The author's Vita page is omitted.

Recommended Citation

Miller, Daniel A. II, "Nonlinear Large Deformation Theory of Composite Arches Using Truncated Rotations" (1993). Theses and Dissertations. 6629.
https://scholar.afit.edu/etd/6629