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CE381 STRUCTURAL ANALYSIS I

CE381 STRUCTURAL ANALYSIS I. AIMS AND OBJECTIVES

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CE381 STRUCTURAL ANALYSIS I

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  1. CE381 STRUCTURAL ANALYSIS I AIMS AND OBJECTIVES This course introduces engineering students to the basic techniques required for analyzing the majority of structures and the elements of which most structures are composed, including beams, frames, arches, trusses and cables. It provide methods also, to compute the deflections of structures. COURSE CONTENT Introduction and fundamental concepts in structural analysis. Analysis of trusses, beams, frames, cables and arches. Stability and determinacy of structures. Analytical expressions and diagrams. Principles of virtual work. Principle of virtual displacements. The unit dummy displacement method. Energy Principles. Potential energy and strain energy in structural systems. Calculations for deflection of structures.

  2. TEXT BOOK/ RECOMMENDED READING ATTENDANCE AND DEADLINES

  3. COMMENTS

  4. INTRODUCTION Mechanics, is the branch of physics concerned with thebehaviour of physical bodieswhen subjected to forces ordisplacements, and the subsequent effect of the bodies on their environment. • Statics - bodies at rest or moving with uniform velocity • Dynamics - bodies accelerating • Strength of materials - deformation of bodies under forces. • Structural Mechanics - focus on behavior of structures under loads. Structural Analysis is a process by which the structural engineer determines the response of a structure to be specified loads or actions. Response : • Magnitude of force development (collapse) • Magnitude of deformation (serviceability)

  5. Structural engineering projects can be divided into 4 stages. • Planning phase • Material • Structural form • Loads • Analysis • Design • Construction • The design of a structure involves many considerations, among which are 4 major objectives that must be satisfied. • Safety (the structure must carry loads safely) • Economy (the stucture should be economical in material and overall costs) • Utility (the structure must meet the performance requirement) • Beauty (the stucture should have a good performance)

  6. Therefore, the purpose of structural analysis is to determine the reactions, internal forces and deformations at any point of a given structure caused by applied loads and forces. • Types of Structural forms • Tension and Compression structures • Flexural beam and frame structures (load carrying is achieved by bending) • Surface structures (load carrying is by membrane action)

  7. 1 kN Compression 1 kN Tension

  8. Compressive Failure Tensile Failure

  9. Important Structural Properties Strength : Ability to withstand a given stress without failure. Depends on type of material and type of force (tension or compression). Stiffness :Property related to deformation. Stiffer structural elements deform less under the same applied load. Stiffness depends on type of material (E), structural shape, and structural configuration.Two main types; Axial stiffness and Bending stiffness.

  10. Stiffest Stiff Stiffer

  11. Arch Arches carry the dominant permanent load case (usually full dead load) in pure axial compression.

  12. C T C C T Forces in Truss Members Truss

  13. 1 kN Bending

  14. Frame

  15. Flat Plate

  16. Folded Plate

  17. Shells

  18. Support Connections • Roller support (allows rotation/translation) • Pin connection (allows rotation) • Fixed joint (allows no rotation/translation)

  19. A beam have a variety of supports. - roller ( 1-DOF) - pinned( 2-DOF) - fixed( 3-DOF)

  20. The process of defining an ideal structure from a real structure is called modeling. To carry out practical analysis it becomes necessary to idealize a structure.

  21. A beam have a variety of loads. - point loads - distributed loads - applied moments

  22. A beam can be classified as statically determinate beam, which means that it can be solved using equilibrium equations, or it is ...

  23. A beam can be classified as statically indeterminate beam, which can not be solved with equilibrium equations. It requires a compatibility condition.

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