The analysis of trusses Mehrdad Negahban (1999)

Similar documents
Equilibrium of rigid bodies Mehrdad Negahban (1999)

Supplement: Statically Indeterminate Trusses and Frames

MEE224: Engineering Mechanics Lecture 4

CHAPTER 5 ANALYSIS OF STRUCTURES. Expected Outcome:

Chapter 6: Structural Analysis

ME Statics. Structures. Chapter 4

ENT 151 STATICS. Contents. Introduction. Definition of a Truss

STATICS VECTOR MECHANICS FOR ENGINEERS: Eleventh Edition CHAPTER. Ferdinand P. Beer E. Russell Johnston, Jr. David F. Mazurek

SRSD 2093: Engineering Mechanics 2SRRI SECTION 19 ROOM 7, LEVEL 14, MENARA RAZAK

ENGR-1100 Introduction to Engineering Analysis. Lecture 19

SIMPLE TRUSSES, THE METHOD OF JOINTS, & ZERO-FORCE MEMBERS

STATICS. Vector Mechanics for Engineers: Statics VECTOR MECHANICS FOR ENGINEERS: Contents 9/3/2015

Plane Trusses Trusses

To show how to determine the forces in the members of a truss using the method of joints and the method of sections.

Chapter 6: Structural Analysis

CHAPTER 5 Statically Determinate Plane Trusses

CHAPTER 5 Statically Determinate Plane Trusses TYPES OF ROOF TRUSS

ENGINEERING MECHANICS STATIC

Outline: Frames Machines Trusses

Engineering Mechanics Department of Mechanical Engineering Dr. G. Saravana Kumar Indian Institute of Technology, Guwahati

Calculating Truss Forces. Method of Joints

Method of Sections for Truss Analysis

Engineering Mechanics: Statics STRUCTURAL ANALYSIS. by Dr. Ibrahim A. Assakkaf SPRING 2007 ENES 110 Statics

6.6 FRAMES AND MACHINES APPLICATIONS. Frames are commonly used to support various external loads.

7 STATICALLY DETERMINATE PLANE TRUSSES

Lecture 20. ENGR-1100 Introduction to Engineering Analysis THE METHOD OF SECTIONS

ENGR-1100 Introduction to Engineering Analysis. Lecture 20

Pin-Jointed Frame Structures (Frameworks)

Statics: Lecture Notes for Sections

ENGR-1100 Introduction to Engineering Analysis. Lecture 23

STATICALLY INDETERMINATE STRUCTURES

Lecture 17 February 23, 2018

Lecture 17 February 23, 2018

Truss Analysis Method of Joints. Steven Vukazich San Jose State University

Lecture 23. ENGR-1100 Introduction to Engineering Analysis FRAMES S 1

Module 4 : Deflection of Structures Lecture 4 : Strain Energy Method

Similar to trusses, frames are generally fixed, load carrying structures.

Newton s Third Law Newton s Third Law: For each action there is an action and opposite reaction F

Mechanical Design in Optical Engineering

TYPES OF STRUCUTRES. HD in Civil Engineering Page 1-1

Announcements. Trusses Method of Joints

FRAMES AND MACHINES Learning Objectives 1). To evaluate the unknown reactions at the supports and the interaction forces at the connection points of a

Structural Analysis II Prof. P. Banerjee Department of Civil Engineering Indian Institute of Technology, Bombay Lecture 38

Equilibrium Equilibrium and Trusses Trusses

Chapter 3 Trusses. Member CO Free-Body Diagram. The force in CO can be obtained by using section bb. Equations of Equilibrium.

Shear Force and Bending Moment Diagrams for a Beam Steven Vukazich San Jose State University

Vector Mechanics: Statics

The centroid of an area is defined as the point at which (12-2) The distance from the centroid of a given area to a specified axis may be found by

Indeterminate Analysis Force Method 1

READING QUIZ. 2. When using the method of joints, typically equations of equilibrium are applied at every joint. A) Two B) Three C) Four D) Six

Module 2. Analysis of Statically Indeterminate Structures by the Matrix Force Method

P.E. Civil Exam Review:

three Point Equilibrium 1 and planar trusses ARCHITECTURAL STRUCTURES: FORM, BEHAVIOR, AND DESIGN DR. ANNE NICHOLS SUMMER 2014 lecture

1. Determine the Zero-Force Members in the plane truss.

Lecture 6: The Flexibility Method - Beams. Flexibility Method

ENGN1300: Structural Analysis

1. Determine the Zero-Force Members in the plane truss.

MT225 Homework 6 - Solution. Problem 1: [34] 5 ft 5 ft 5 ft A B C D. 12 kips. 10ft E F G

Delft Applied Mechanics Course: Statics AE1-914-I. 18 August 2004, 9:00 12:00

UNIT IV FLEXIBILTY AND STIFFNESS METHOD

Part IB Paper 2: Structures. Examples Paper 2/3 Elastic structural analysis

3.032 Problem Set 1 Fall 2007 Due: Start of Lecture,

Unit M1.4 (All About) Trusses

CH. 5 TRUSSES BASIC PRINCIPLES TRUSS ANALYSIS. Typical depth-to-span ratios range from 1:10 to 1:20. First: determine loads in various members

three Equilibrium 1 and planar trusses ELEMENTS OF ARCHITECTURAL STRUCTURES: FORM, BEHAVIOR, AND DESIGN DR. ANNE NICHOLS SPRING 2015 lecture ARCH 614

and F NAME: ME rd Sample Final Exam PROBLEM 1 (25 points) Prob. 1 questions are all or nothing. PROBLEM 1A. (5 points)

Calculating Truss Forces Unit 2 Lesson 2.1 Statics

T R U S S. Priodeep Chowdhury;Lecturer;Dept. of CEE;Uttara University//TRUSS Page 1

Mechanics of Materials

Static Equilibrium. University of Arizona J. H. Burge

Theory of structure I 2006/2013. Chapter one DETERMINACY & INDETERMINACY OF STRUCTURES

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

Lecture 0. Statics. Module 1. Overview of Mechanics Analysis. IDeALab. Prof. Y.Y.KIM. Solid Mechanics


T2. VIERENDEEL STRUCTURES

Chapter 5: Equilibrium of a Rigid Body

D : SOLID MECHANICS. Q. 1 Q. 9 carry one mark each.

Chapter 11. Displacement Method of Analysis Slope Deflection Method

14. *14.8 CASTIGLIANO S THEOREM

Shafts: Torsion of Circular Shafts Reading: Crandall, Dahl and Lardner 6.2, 6.3

Introduction. 1.1 Introduction. 1.2 Trigonometrical definitions

Methods of Analysis. Force or Flexibility Method

CIV 207 Winter For practice

ME 201 Engineering Mechanics: Statics. Final Exam Review

Structural Analysis. Method of Joints. Method of Pins

Moment Distribution The Real Explanation, And Why It Works

D : SOLID MECHANICS. Q. 1 Q. 9 carry one mark each. Q.1 Find the force (in kn) in the member BH of the truss shown.

Design of Steel Structures Prof. Damodar Maity Department of Civil Engineering Indian Institute of Technology, Guwahati

Chapter 2: Deflections of Structures

Module 6. Approximate Methods for Indeterminate Structural Analysis. Version 2 CE IIT, Kharagpur

Moment Distribution Method

6/6/2008. Qualitative Influence Lines for Statically Indeterminate Structures: Muller-Breslau s Principle

EQUATIONS OF EQUILIBRIUM & TWO-AND THREE-FORCE MEMEBERS

Mechanics Lab & Problem Sheet 2: Structures ( )

Engineering Mechanics: Statics in SI Units, 12e

Level 7 Postgraduate Diploma in Engineering Computational mechanics using finite element method

If the number of unknown reaction components are equal to the number of equations, the structure is known as statically determinate.

Continuing Education Course #207 What Every Engineer Should Know About Structures Part B Statics Applications

COLUMNS: BUCKLING (DIFFERENT ENDS)

CH. 4 BEAMS & COLUMNS

Transcription:

The analysis of trusses Mehrdad Negahban (1999) A truss: A truss is a structure made of two force members all pin connected to each other. The method of joints: This method uses the free-body-diagram of joints in the structure to determine the forces in each member. For example, in the above structure we have 5 joints each having a free body diagram as follows Note how Newton s third law controls how one introduces on the joints A and on the joint B. For each joint one can write two equations ( ). The moment equation is trivially satisfied since all forces on a joint pass trough the joint. For example, for the Used by permission. Page 1 of 6

above truss we have 5 joints, therefore we can write 10 equations of equilibrium (two for each joint). In the above example there are seven unknown member forces (F AB, F BC, F CD, F ED, F EC, F BE, F AE ) plus three unknown support reactions (A, D x, D y ), giving a total of 10 unknowns to solve for using the 10 equations obtained from equilibrium. The method of sections: This method uses free-body-diagrams of sections of the truss to obtain unknown forces. For example, if one needs only to find the force in BC, it is possible to do this by only writing two equations. First, draw the free body diagram of the full truss and solve for the reaction at A by taking moments about D. Next draw the free body diagram of the section shown and take moments about E to find the force in BC. In the method of sections one can write three equations for each free-body-diagram (two components of force and one moment equation). Things to consider: Used by permission. Page 2 of 6

Zero force members: Some members in a truss cannot carry load. These members are called zero force members. Examples of zero force members are the colored members (AB, BC, anddg) in the following truss. Consider the following free-body-diagrams If you sum the forces in the y-direction in the left free-body-diagram, you will see that F AB must be zero since it is not balanced by another force. Then if you sum forces in the y-direction you will find that F BC must also be zero. If you sum the forces in the y direction in the right free-body-diagram, you will see that F DG must be zero since it is not balanced by another force. A redundant joint: Sometimes a joint is redundant. For example, in the following free-body-diagram the load is directly transmitted from each member to the one opposite it without any interaction. Used by permission. Page 3 of 6

By summing forces along the y-direction one will get F 2 =F 4, and by summing forces along the Y-direction one will get F 1 =F 3. Redundant members: Sometimes a structure contains one or more redundant members. These members must be removed from the truss, otherwise one will have an insufficient number of equations to solve for the unknown member forces. Slender members are not very useful in compression since they buckle and, as a result, lose their load carrying capability. For example, in the following truss one of the two members AC or BD is redundant. To solve the problem, we remove member BD which will go into compression as a result of the applied loading (i.e., the diagonal AC will have to increase in length and the diagonal BD will have to decease in length for the structure to bend to the right). If we did not remove this member we would have 9 unknowns (five member loads and four support reactions) and only 8 equations (two for each joint). Used by permission. Page 4 of 6

Mechanisms: Sometimes there is too much freedom in a structure. For example, the following structure cannot carry any load since it will collapse under the load. Used by permission. Page 5 of 6

Curved members: Remember that the two forces acting on a two-force-member are along the line connecting the two points on which the loads are applied. Used by permission. Page 6 of 6

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