MECE 3321: Mechanics of Solids Chapter 6

Similar documents
Samantha Ramirez, MSE

[8] Bending and Shear Loading of Beams

CHAPTER -6- BENDING Part -1-

6. Bending CHAPTER OBJECTIVES

Chapter Objectives. Copyright 2011 Pearson Education South Asia Pte Ltd

PURE BENDING. If a simply supported beam carries two point loads of 10 kn as shown in the following figure, pure bending occurs at segment BC.

Stress Analysis Lecture 4 ME 276 Spring Dr./ Ahmed Mohamed Nagib Elmekawy

Purpose of this Guide: To thoroughly prepare students for the exact types of problems that will be on Exam 3.

MECHANICS OF MATERIALS. Analysis of Beams for Bending

Symmetric Bending of Beams

BEAM DEFLECTION THE ELASTIC CURVE

MECE 3321 MECHANICS OF SOLIDS CHAPTER 1

Lecture 15 Strain and stress in beams

5. What is the moment of inertia about the x - x axis of the rectangular beam shown?

3. BEAMS: STRAIN, STRESS, DEFLECTIONS

MECE 3321: MECHANICS OF SOLIDS CHAPTER 5

Chapter 7: Bending and Shear in Simple Beams

Chapter 3. Load and Stress Analysis

Strength of Materials Prof. S.K.Bhattacharya Dept. of Civil Engineering, I.I.T., Kharagpur Lecture No.26 Stresses in Beams-I

PES Institute of Technology

Properties of Sections

Samantha Ramirez, MSE. Stress. The intensity of the internal force acting on a specific plane (area) passing through a point. F 2

REVIEW FOR EXAM II. Dr. Ibrahim A. Assakkaf SPRING 2002

Advanced Structural Analysis EGF Section Properties and Bending

MECE 3321 MECHANICS OF SOLIDS CHAPTER 3

Support Reactions: a + M C = 0; 800(10) F DE(4) F DE(2) = 0. F DE = 2000 lb. + c F y = 0; (2000) - C y = 0 C y = 400 lb

Chapter 7: Internal Forces

Mechanics of Materials II. Chapter III. A review of the fundamental formulation of stress, strain, and deflection

Lab Exercise #5: Tension and Bending with Strain Gages

MECHANICS OF MATERIALS. Prepared by Engr. John Paul Timola

CHAPTER 6: Shearing Stresses in Beams

By Dr. Mohammed Ramidh

Sub. Code:

CHAPTER OBJECTIVES Use various methods to determine the deflection and slope at specific pts on beams and shafts: 2. Discontinuity functions

MAAE 2202 A. Come to the PASS workshop with your mock exam complete. During the workshop you can work with other students to review your work.

Part 1 is to be completed without notes, beam tables or a calculator. DO NOT turn Part 2 over until you have completed and turned in Part 1.

Beams. Beams are structural members that offer resistance to bending due to applied load

Bending Stress. Sign convention. Centroid of an area

MECHANICS OF MATERIALS Sample Problem 4.2

COURSE TITLE : THEORY OF STRUCTURES -I COURSE CODE : 3013 COURSE CATEGORY : B PERIODS/WEEK : 6 PERIODS/SEMESTER: 90 CREDITS : 6

Mechanics of Materials

Name (Print) ME Mechanics of Materials Exam # 2 Date: March 29, 2017 Time: 8:00 10:00 PM - Location: WTHR 200

Solution: The moment of inertia for the cross-section is: ANS: ANS: Problem 15.6 The material of the beam in Problem

NAME: Given Formulae: Law of Cosines: Law of Sines:

7 TRANSVERSE SHEAR transverse shear stress longitudinal shear stresses

CH. 4 BEAMS & COLUMNS

CHAPTER 4: BENDING OF BEAMS

Tuesday, February 11, Chapter 3. Load and Stress Analysis. Dr. Mohammad Suliman Abuhaiba, PE

QUESTION BANK SEMESTER: III SUBJECT NAME: MECHANICS OF SOLIDS

UNIT 1 STRESS STRAIN AND DEFORMATION OF SOLIDS, STATES OF STRESS 1. Define stress. When an external force acts on a body, it undergoes deformation.

Mechanics in Energy Resources Engineering - Chapter 5 Stresses in Beams (Basic topics)

(Refer Slide Time: 01:00 01:01)

[5] Stress and Strain

Chapter 4 Deflection and Stiffness

ENG2000 Chapter 7 Beams. ENG2000: R.I. Hornsey Beam: 1

Chapter 4.1: Shear and Moment Diagram

Application of Finite Element Method to Create Animated Simulation of Beam Analysis for the Course of Mechanics of Materials

Russell C. Hibbeler. Chapter 1: Stress

MTE 119 STATICS FINAL HELP SESSION REVIEW PROBLEMS PAGE 1 9 NAME & ID DATE. Example Problem P.1

Beam Bending Stresses and Shear Stress

7.4 The Elementary Beam Theory

PDDC 1 st Semester Civil Engineering Department Assignments of Mechanics of Solids [ ] Introduction, Fundamentals of Statics

ENGINEERING COUNCIL DIPLOMA LEVEL MECHANICS OF SOLIDS D209 TUTORIAL 3 - SHEAR FORCE AND BENDING MOMENTS IN BEAMS

This procedure covers the determination of the moment of inertia about the neutral axis.

Beams are bars of material that support. Beams are common structural members. Beams can support both concentrated and distributed loads

4. BEAMS: CURVED, COMPOSITE, UNSYMMETRICAL

CIVIL DEPARTMENT MECHANICS OF STRUCTURES- ASSIGNMENT NO 1. Brach: CE YEAR:

OUTCOME 1 - TUTORIAL 3 BENDING MOMENTS. You should judge your progress by completing the self assessment exercises. CONTENTS

Name (Print) ME Mechanics of Materials Exam # 1 Date: October 5, 2016 Time: 8:00 10:00 PM

Sample Question Paper

MECHANICS LAB AM 317 EXP 3 BENDING STRESS IN A BEAM

dv dx Slope of the shear diagram = - Value of applied loading dm dx Slope of the moment curve = Shear Force

Problem d d d B C E D. 0.8d. Additional lecturebook examples 29 ME 323

STRENGTH OF MATERIALS-I. Unit-1. Simple stresses and strains

The University of Melbourne Engineering Mechanics

BEAM A horizontal or inclined structural member that is designed to resist forces acting to its axis is called a beam

3 Hours/100 Marks Seat No.


R13. II B. Tech I Semester Regular Examinations, Jan MECHANICS OF SOLIDS (Com. to ME, AME, AE, MTE) PART-A

Stresses in Curved Beam

BEAMS: SHEAR AND MOMENT DIAGRAMS (FORMULA)

PROBLEM #1.1 (4 + 4 points, no partial credit)

Shear Force V: Positive shear tends to rotate the segment clockwise.

STRESS STRAIN AND DEFORMATION OF SOLIDS, STATES OF STRESS

Mechanics of Solids notes

Unit Workbook 1 Level 4 ENG U8 Mechanical Principles 2018 UniCourse Ltd. All Rights Reserved. Sample

Determine the resultant internal loadings acting on the cross section at C of the beam shown in Fig. 1 4a.

March 24, Chapter 4. Deflection and Stiffness. Dr. Mohammad Suliman Abuhaiba, PE

Stress Analysis Lecture 3 ME 276 Spring Dr./ Ahmed Mohamed Nagib Elmekawy

Solid Mechanics Homework Answers

KINGS COLLEGE OF ENGINEERING DEPARTMENT OF MECHANICAL ENGINEERING QUESTION BANK. Subject code/name: ME2254/STRENGTH OF MATERIALS Year/Sem:II / IV

ME Final Exam. PROBLEM NO. 4 Part A (2 points max.) M (x) y. z (neutral axis) beam cross-sec+on. 20 kip ft. 0.2 ft. 10 ft. 0.1 ft.

Assumptions: beam is initially straight, is elastically deformed by the loads, such that the slope and deflection of the elastic curve are

ES230 STRENGTH OF MATERIALS

Mechanical Design in Optical Engineering

Outline. Organization. Stresses in Beams

EMA 3702 Mechanics & Materials Science (Mechanics of Materials) Chapter 5 Beams for Bending

MECHANICS OF MATERIALS

ME 202 STRENGTH OF MATERIALS SPRING 2014 HOMEWORK 4 SOLUTIONS

8.3 Shear and Bending-Moment Diagrams Constructed by Areas

Transcription:

MECE 3321: Mechanics of Solids Chapter 6 Samantha Ramirez Beams Beams are long straight members that carry loads perpendicular to their longitudinal axis Beams are classified by the way they are supported Simply Supported Beam Cantilever Beam Overhanging Beam 1

Shear & Bending Moment Diagrams Shear and bending moment diagrams are graphical representations of the internal shears and moments within a beam. They can be constructed by establishing a sign convention. Positive Distributed Load Positive Internal Shear Causes a clockwise rotation Positive Internal Moment Compression on top Can hold water How to Analyze Shear & Moment Diagrams 1. Statics FBD Reactions 2. Solids Cut between concentrated forces or moments Note distance, x, from the beam s left end FBD of each section Solve for V and M 3. Shear & Moment Diagrams Plot the shear diagram (V vs x) Plot the moment diagram (M vs x) 2

Problem 6-4 Draw the shear and moment diagrams for the beam. Problem 6-25 Draw the shear and moment diagrams for the beam and determine the shear and moment in the beam as functions of x, where 4 ft < x < 10 ft. 3

Problem 6-30 The beam is bolted or pinned at A and rests on a bearing pad at B that exerts a uniform distributed loading on the beam over its 2-ft length. Draw the shear and moment diagrams for the beam if it supports a uniform loading of 2 kip/ft. Problem 6-22 Draw the shear and moment diagrams for the overhang beam. 4

Graphical Method for Constructing V & M Diagrams dv dx = w(x) dm dx = V(x) V = න w x dx M = න V x dx The slope of the shear curve is equal to the negative of the intensity of the distributed load. The slope of the moment curve is equal to the intensity of the shear force. The change of shear is equal to the negative of the area under the distributed load. The change of moment is equal to the area under the shear diagram. Discontinuities Discontinuities (jumps) at points where concentrated loads or moments are applied are present in V & M diagrams. 5

How to Analyze V & M Diagrams Using the Graphical Method 1. Statics FBD Reaction Forces 2. Establish V & M at the ends of the member 3. Use 4 relations to draw the diagrams V vs x M vs x Problem 6-25 Draw the shear and moment diagrams for the beam and determine the shear and moment in the beam as functions of x, where 4 ft < x < 10 ft. 6

Problem 6-30 The beam is bolted or pinned at A and rests on a bearing pad at B that exerts a uniform distributed loading on the beam over its 2-ft length. Draw the shear and moment diagrams for the beam if it supports a uniform loading of 2 kip/ft. Example 6.4 Draw the shear and moment diagrams for the beam shown. 7

Bending Deformation of a Straight Member When a bending moment is applied, the longitudinal lines become curved and the vertical transverse lines remain straight and undergo a rotation. The neutral surface is found between the stretched and compressed surfaces and does not experience any change in length. Normal Strain Distribution in Bending Longitudinal strain varies linearly from zero at the neutral axis to a maximum at the outer fibers of the beam. 8

Normal Stress Distribution in Bending Assuming a homogeneous material and linear elastic deformation, the stress also varies in a linear fashion over the cross-sectional area. σ = y c σ max Flexure Formula σ max = Mc I σ max : the maximum normal stress in a member which occurs at a point on the cross-sectional area farthest away from the neutral axis M: the resultant internal moment c: the perpendicular distance from the neutral axis to where σ max acts (point farthest from the neutral axis) I: the moment of inertia of the cross-sectional area about the neutral axis 9

Flexure Formula Similarly, σ = My I where y is the perpendicular distance from the neutral axis to the point of interest This equation is valid for beams with cross-sectional areas symmetric about the y-axis. Note: For linear elastic materials, the neutral axis passes through the centroid Centroids The centroid of an area refers to the point that defines the geometric center for the area. In cases where the area has an axis of symmetry, the centroid will lie along this axis. Composite Area: The area can be sectioned or divided into several parts having simpler shapes x ҧ = σ xa σ A തy = σ ya σ A x, y: the algebraic distances (or x & y coordinates) for the centroid of each composite part A: the area of each composite part 10

Moments of Inertia A geometric property that is calculated about an axis. I x = ҧ I x + Ad y 2 I y = ҧ I y + Ad x 2 The term Ad 2 is zero if the axis passes through the area s centroid Composite areas can be used to calculate the moment of inertia of complex shapes You can subtract the moment of inertia of an empty area from the moment of inertia of the entire area. Determining Centroids & Moments of Inertia Determine the centroid and moment of inertia for each of the following cross-sections about the neutral axis. 11

Procedure for Analysis 1. Internal Moment FBD/Statics FBD/Solids 2. Section Property Moment of Inertia 3. Normal Stress Specify the location y Apply Flexure Formula Example 1 The steel rod having a diameter of 1 in is subjected to an internal moment of M=300 lb-ft. Determine the stress created at points A and B. Also, sketch a 3-D view of the stress distribution acting over the cross section. 12

Problem 6-56 The aluminum strut has a cross-sectional area in the form of a cross. If it is subjected to the moment M = 8 knm, determine the bending stress acting at points A and B, and show the results acting on volume elements located at these points. Problem 6-59 The aluminum machine part is subjected to a moment of M = 75 Nm. Determine the maximum tensile and compressive bending stresses in the part. 13

Problem 6-73 Determine the smallest allowable diameter of the shaft which is subjected to the concentrated forces. The sleeve bearings at A and B support only vertical forces, and the allowable bending stress is σ allow =22 ksi. Problem 6-94 The beam has a rectangular cross section as shown. Determine the largest load P that can be supported on its overhanging ends so that the bending stress does not exceed σ max =10 MPa. 14

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback