Elastic/Plastic Behavior of Infinitely Long Cylinders Subject to Mechanical and Thermal Loads.

Slides:

Advertisements

Similar presentations

FEA Course Lecture III – Outline

Advertisements

Finite element method Among the up-to-date methods of stress state analysis, the finite element method (abbreviated as FEM below, or often as FEA for analyses.

MECHANISMS   Constant Uniaxial Tension Autogenous Shrinkage Elastic Viscoelastic     Time Stress Time Stress * * * Not an exact analytical solution.

Buckling in aircraft structures

APPLIED MECHANICS Lecture 10 Slovak University of Technology

Dr Martin Muscat Department of Mechanical Engineering

Chapter 17 Design Analysis using Inventor Stress Analysis Module

Sample Problem 3.4 Find the T0 for the maximum allowable torque on each shaft – choose the smallest. Find the corresponding angle of twist for each shaft.

© 2006 The McGraw-Hill Companies, Inc. All rights reserved. MECHANICS OF MATERIALS FourthEdition Beer Johnston DeWolf Find the T 0 for the maximum.

Modal Analysis of Functionally Graded Rectangular Plates Wes Saunders Engineering Project Proposal.

E.M. Adulina, L.V. Stepanova, Samara State University

Analytical prediction of springback based on residual differential strain during sheet metal bending.

MCE 561 Computational Methods in Solid Mechanics

MCE 561 Computational Methods in Solid Mechanics

Chris Wowk MANE 6970 Master’s Project.  The objective of this project was to evaluate the behavior of flat faced cover plate/flange joints using: ◦ Radial.

MECHANICAL PROPERTIES OF MATERIALS.  Engineers are primarily concerned with the development and design of machines, structures etc.  These products.

An Investigation into the use of FEA methods for the prediction of Thermal Stress Ratcheting Huse, Stephen.

EMA 405 Introduction. Syllabus Textbook: none Prerequisites: EMA 214; 303, 304, or 306; EMA 202 or 221 Room: 2261 Engineering Hall Time: TR 11-12:15 Course.

Elastic Stress-Strain Relationships

Finite element method Among up-to-date methods of mechanics and specifically stress analyses, finite element method (abbreviated as FEM below, or often.

1 ME 323 Final Lecture – April 2011 Additional Topics.

ME 520 Fundamentals of Finite Element Analysis

Analytical Vs Numerical Analysis in Solid Mechanics Dr. Arturo A. Fuentes Created by: Krishna Teja Gudapati.

University of Chemical Technology and Metallurgy Department of Material Science and Engineering FINITEELEMENT METHOD By eng. Veselin Paunov Prof. Veselin.

An Investigation into the use of FEA methods for the prediction of Thermal Stress Ratcheting Huse, Stephen.

LINEAR BUCKLING ANALYSIS

© Cambridge University Press 2010 Brian J. Kirby, PhD Sibley School of Mechanical and Aerospace Engineering, Cornell University, Ithaca, NY Powerpoint.

Accuracy of Fully Elastic vs. Elastic-Plastic Finite Element Analysis Masters of Engineering Rensselear Polytechnic Institute By Nicholas Szwaja May 17,

Bilinear Isotropic Hardening Behavior MAE 5700 Final Project Raghavendar Ranganathan Bradly Verdant Ranny Zhao.

Saint-Venant Torsion Problem Finite Element Analysis of the Saint-Venant Torsion Problem Using ABAQUS.

Spall Fracture of Multi-Material Plates Under Explosive Loading Engineering Project Proposal Presentation By James Danyluk.

PAEN – 3rd Classe Stability of Columns and Stiffened Plates

Optimization, Plasticity, Forming DYSTIFF s.r.o., Olomouc.

1 3D Exact Analysis of Functionally Graded and Laminated Piezoelectric Plates and Shells G.M. Kulikov and S.V. Plotnikova Speaker: Svetlana Plotnikova.

Strength of Materials Outline Overview AXIALLY LOADED MEMBERS THIN-WALLED CYLINDER GENERAL STATE OF STRESS PLANE STRESS + MOHR’S CIRCLE PLANE STRAIN +

Objective Examine the stresses, strains, and displacements of ideal cylinders subject to axisymmetric mechanical (pressure) and thermal loads, to include:

ME 612 Metal Forming and Theory of Plasticity

Model: Elasto-Plastic Plate. Introduction This model treats the elastic-plastic material behavour of a plate with a centered hole. The development of.

Chris Wowk MANE 6970 Master’s Project

WEAR. Wear –Quantitative Measurement of Wear: A general description of adhesive wear is given by V = (kPx/3H), Where V is the volume of material worn.

Mechanics of Materials

Copyright Kaplan AEC Education, 2005 Mechanics of Materials Outline Overview AXIALLY LOADED MEMBERS, p. 262 Modulus of Elasticity Poisson’s Ratio Thermal.

MECHANICS OF MATERIALS Fourth Edition Ferdinand P. Beer E. Russell Johnston, Jr. John T. DeWolf Lecture Notes: J. Walt Oler Texas Tech University CHAPTER.

Review of Cavity Load Cases and relevant analysis L. Dassa and C. Zanoni feat. N. Kuder 08/02/2016.

1 - An AISI 1020 cold- rolled steel tube has an OD of 3.0 inch. The internal pressure in the tube is 6,840 psi. Determine the thickness of the tube using.

Combined Loadings Thin-Walled Pressure Vessels Stress caused by Combined Loadings.

Date of download: 6/22/2016 Copyright © ASME. All rights reserved. From: Thermal Postbuckling of Imperfect Circular Functionally Graded Material Plates:

© Oxford University Press How are the plates moving?

Date of download: 11/12/2016 Copyright © ASME. All rights reserved.

Buckling in aircraft structures

Continuously Dislocated Elastic Bodies Subjected to Antiplane Shear

Date of download: 10/17/2017 Copyright © ASME. All rights reserved.

Date of download: 10/25/2017 Copyright © ASME. All rights reserved.

Date of download: 11/2/2017 Copyright © ASME. All rights reserved.

Date of download: 11/4/2017 Copyright © ASME. All rights reserved.

Continuum Mechanics (MTH487)

Date of download: 11/8/2017 Copyright © ASME. All rights reserved.

CENG 6202Advanced Soil Mechanics

V ANNUAL MEETING OF THE GEORGIAN MECHANICAL UNION

From: Design of Axially Graded Columns Under a Central Force

Date of download: 12/20/2017 Copyright © ASME. All rights reserved.

Date of download: 12/28/2017 Copyright © ASME. All rights reserved.

تئوری الاستیسیته Theory of Elasticity كريم عابدي.

(a) Describe what material the spring is made from;

( BDA 3033 ) Chapter 5: Thick Cylinder **Compound Cylinders**

ME 323 Final Lecture – April 2012

Presentation transcript:

Elastic/Plastic Behavior of Infinitely Long Cylinders Subject to Mechanical and Thermal Loads

Objective Examine the stresses and strains of infinitely-long cylinders subjec to axismmetric mechanical (pressure) and thermal loads, to include: –Thin-walled and thick-walled cylinders –Plane-strain and plane-stress end conditions –Elastic and elastic-plastic behavior –Analytical and finite-element methods

References [1] Young, W.C., 1989, Roark’s Formulas for Stress & Strain, McGraw-Hill, New York, NY. [2] Hill, R., 1950, The Mathematical Theory of Plasticity, Oxford University Press, London, UK. [3] Ugural, A.C, 1999, Stresses in Plates and Shells¸ McGraw-Hill, Boston, MA. [4] Gao, X.L., 2003, “Elasto-plastic analysis of an internally pressurized thick-walled cylinder using a strain gradient plasticity theory,” International Journal of Solids and Structures [5] Jahanian, S., 1996, “Thermoelastoplastic stress analysis of a thick-walled tube of nonlinear strain hardening,” Transactions of the ASME [6] Tarn, J.Q., 2001, “Exact solutions for functionally graded anisotropic cylinders subjected to thermal and mechanical loads,” International Journal of Solids and Structures [7] Zhao, W., Seshadri, R., Dubey, R.N., 2003, “On thick-walled cylinder under internal pressure,” Journal of Pressure Vessel Technology

Schedule Proposal draft (Deliverable) – 9/23 Linear elastic stresses and strains (analytical) –Pressure loading, thin/thick-shells – 10/7 –Pressure loading with thermal effects, thin/thick shells– 10/14 First progress report (Deliverable) – 10/14 Elastic-plastic stresses and strains (analytical) –Pressure loading with thermal effects, thin/thick shells – 10/28 Linear elastic FEA analysis –Pressure loading with thermal effects, thin/thick-shells – 11/4 Second progress report (Deliverable) – 11/4 Elastic-plastic FEA analysis –Pressure loading with thermal effects, thin/thick-shells – 11/18 Final draft (Deliverable)– 11/25 Final report (Deliverable) – 12/9