Presentation is loading. Please wait.

Presentation is loading. Please wait.

Optimization of an Orthotropic Composite Beam Brian Schmalberger.

Published byMilo Chambers Modified over 8 years ago

Similar presentations

Presentation on theme: "Optimization of an Orthotropic Composite Beam Brian Schmalberger."— Presentation transcript:

1 Optimization of an Orthotropic Composite Beam Brian Schmalberger

2 Problem Statement A composite beam will be constructed to analyze the stress distribution, stiffness, displacement, and vibration modes as the fiber orientation and loading are changed. The beam will be further optimized for given design constraints, such as maximum torsional stiffness and damping of low frequency vibrations. The beam will be subjected to different loadings, including point, distributed and harmonic loads. Each loading will be applied to a beam that is fixed at both ends and to a beam that is fixed at one end and free at the other end.

3 Background Composites are widely used in the automobile, aerospace, and athletics industry. Examples of composites include bumpers, wings, bicycle frames, and downhill skis. Combined with the light weight and high strength characteristics of composite materials, the ability to optimize a composite structure for a specific property is useful to a design engineer. Properties of the structure, such as stiffness, stress distribution, and dynamic response are affected by fiber and matrix material, fiber orientation, and the number of lamina.

4 Methodology and Approach A brief introduction to classical composite theory will also be discussed. ANSYS will then be used to a construct three-dimensional composite beam with a given fiber orientation and number of lamina. The ends of the beam will be constrained as follows: – Fixed-free – Fixed-fixed The beam will be loaded as follows for each set of constraints: – Point loads different locations (e.g. 0.25L, 0.50L, 0.75L and 1.0L) – Distributed loads of varying lengths and locations (e.g. 0.25L centered at 0.5L) – Harmonic loads of varying frequencies at different locations (e.g. 60Hz @ 0.5L)

5 Milestones 2/05/10……….Project proposal draft 2/08/10……….Description of classical composites theory 2/1510…..……Composites research in ANSYS 2/22/10……….Construction of model in ANSYS and first analysis 2/26/10……….Progress report #1 3/01/10……….Analysis of constraints and loads 3/15/10……….Optimization of model for design constraints 4/09/10……….Final draft 4/21/10……….Final report

6 References Adams, R. D. and M. R. Maheri. “Dynamic Flexural properties of Anisotropic Fibrous Composite Beams.” Composites Science and Technology 50 (1994) 497- 514. Assarar, Mustapha, Jean-Marie Berthelot, Abderrahim El Mahi, and Youssef Sefrani. “Damping analysis of Orthotropic Composite Materials and Laminates.” Composites: Part B 39 (2008) 1069-1076. Benchekchou, B., M. Coni, and R. G. White. “The Structural Damping of Composite Beams with Tapered Boundaries.” Composites Structures 35 (1996) 207-212. Chawla, Krish, Uday K. Vaidya, and Ashutosh Goel. “Fatigue and Vibration Response of Long Fiber Reinforced Thermoplastics.” Univ. of Birmingham. Della, Christian N. and Dongwei Shu. “Free Vibration of Composite Beams with Two Non-overlapping Delaminations.” International Journal of Mechanical Sciences 46 (2004) 509-526.

Download ppt "Optimization of an Orthotropic Composite Beam Brian Schmalberger."

Similar presentations

Structural scales and types of analysis in composite materials

Structural scales and types of analysis in composite materials
Mechanics of Composite Materials

Mechanics of Composite Materials
Fracture Mechanics of Delamination Buckling in Laminated Composites Kenneth Hunziker 4/28/08.

Fracture Mechanics of Delamination Buckling in Laminated Composites Kenneth Hunziker 4/28/08.
Multidisciplinary Optimization of Composite Laminates with Resin Transfer Molding Chung-Hae PARK.

Multidisciplinary Optimization of Composite Laminates with Resin Transfer Molding Chung-Hae PARK.
Measurement Methodology of Deformation of Fiber Reinforced Polymer Composite Plates Under Uniform Static and Dynamic Loading Isaac Pinsky, Class of 2014,

Measurement Methodology of Deformation of Fiber Reinforced Polymer Composite Plates Under Uniform Static and Dynamic Loading Isaac Pinsky, Class of 2014,
Definition I. Beams 1. Definition

Definition I. Beams 1. Definition
Damage and Optimization Models for Analysis and Design of Discontinuous Fiber Composite Structures Ba Nghiep Nguyen Acknowledgements: PNNL’s Computational.

Damage and Optimization Models for Analysis and Design of Discontinuous Fiber Composite Structures Ba Nghiep Nguyen Acknowledgements: PNNL’s Computational.
Micromechanics Macromechanics Fibers Lamina Laminate Structure Matrix.

Micromechanics Macromechanics Fibers Lamina Laminate Structure Matrix.
A study of failure criteria of variable stiffness composite panels Fiber reinforced composites has been widely used in the field of Aeronautics, Astronautics.

A study of failure criteria of variable stiffness composite panels Fiber reinforced composites has been widely used in the field of Aeronautics, Astronautics.
Team Flying Sheep Engineering Analysis Mark Berkobin John Nevin John Nott Christian Yaeger Michelle Rivero.

Team Flying Sheep Engineering Analysis Mark Berkobin John Nevin John Nott Christian Yaeger Michelle Rivero.
AN ANALYTICAL APPROACH TO BGA COMPONENTS IN RANDOM VIBRATION ENVIRONMENTS Milan J Lucic, MANE 6980 Engineering Project.

AN ANALYTICAL APPROACH TO BGA COMPONENTS IN RANDOM VIBRATION ENVIRONMENTS Milan J Lucic, MANE 6980 Engineering Project.
Modal Analysis of Functionally Graded Rectangular Plates Wes Saunders Engineering Project Proposal.

Modal Analysis of Functionally Graded Rectangular Plates Wes Saunders Engineering Project Proposal.
Structure Analysis of 6061-T651 Aluminum Bridge Team Blackboard Mechanical Engineering University of Rochester Team Blackboard Department of Mechanical.

Structure Analysis of 6061-T651 Aluminum Bridge Team Blackboard Mechanical Engineering University of Rochester Team Blackboard Department of Mechanical.
A Designer’s Approach for Optimizing an End-Loaded Cantilever Beam while Achieving Structural and Manufacturing Requirements Timothy M. Demers November.

A Designer’s Approach for Optimizing an End-Loaded Cantilever Beam while Achieving Structural and Manufacturing Requirements Timothy M. Demers November.
AN ANALYTICAL APPROACH TO BGA COMPONENTS IN RANDOM VIBRATION ENVIRONMENTS Milan J Lucic, MANE 6980 Engineering Project.

AN ANALYTICAL APPROACH TO BGA COMPONENTS IN RANDOM VIBRATION ENVIRONMENTS Milan J Lucic, MANE 6980 Engineering Project.
Classical Laminated Plate Theory

Classical Laminated Plate Theory
MCE 561 Computational Methods in Solid Mechanics

MCE 561 Computational Methods in Solid Mechanics
RPI Master’s Project Proposal Stephen Ganz – 5/15/2012 Structural Analysis of Bridge Gusset Plates: Steel vs. Composite.

RPI Master’s Project Proposal Stephen Ganz – 5/15/2012 Structural Analysis of Bridge Gusset Plates: Steel vs. Composite.
CLARKSON UNIVERSITY Department of Mechanical and Aeronautical Engineering Introduction to AIRCRAFT STRUCTURES Ratan Jha (CAMP 364, 268-7686, rjha@clarkson.edu)

CLARKSON UNIVERSITY Department of Mechanical and Aeronautical Engineering Introduction to AIRCRAFT STRUCTURES Ratan Jha (CAMP 364, ,
Stress Analysis Using ANSYS The Composite Recurve Bow ME 450 Project, Fall 2000 Presented by: Losee, Jason Professor: Dr. Craig Weeks.

Stress Analysis Using ANSYS The Composite Recurve Bow ME 450 Project, Fall 2000 Presented by: Losee, Jason Professor: Dr. Craig Weeks.

Similar presentations

Ads by Google