Introduction to Strength of Materials Lecturer; MOHD FIRASATH ALI
Content of the course Diagrams in Statically Determinate Beams ¢ Simple Stress and Strain ¢ Shear Force and Bending Moment Diagrams in Statically Determinate Beams ¢ Stresses in Beams ¢ Torsion 2
Statics Engineering Mechanics Dynamics Mechanics of Materials 3
Study of EXTERNAL effects on Rigid bodies Study of INTERNAL effects and Deformations that are caused by the Applied loads 4
of Materials of of Materials Bodies of Solids Mechanics Strength Deformable Bodies Mechanic of Materials Strength of Materials Mechanics of Solids 5
with physical systems, the component parts of which are to ¢ All branches of Engineering deal with physical systems, the component parts of which are to be assigend definite physical sizes, fabricated from some materials! 6
for these parts of safety withstand the imposed forces on them and ¢ Appropriate sizing is necessary for these parts of safety withstand the imposed forces on them and at an optimal cost. ¢ DESIGN! 7 Strenght of Materials I - DAT
behavior of material from the strength and deformation ¢ It is essential to study the behavior of material from the strength and deformation point of view, as well as the characterization of different kinds of forces, which cause different types of stresses in the material. 8 Strenght of Materials I - DAT
the analytical deformation of the strength, deformation ¢ The subject, which deals with the analytical deformation of the strength, deformation characteristics (stiffness) and stability of different members, is normally designated as the Strength of Materials . 9 Strenght of Materials I - DAT
Characteristics of Strength of Materials Stiffness Stability 10 Strenght of Materials I - DAT
Historical Aspects of 17 Centry. developed theory of columns. ¢ Galileo, Leonardo-Da-Vinci, Eraly part of 17 Centry. th ¢ Leonard Euler (1707-1783) developed theory of columns. ¢ French investigators like, to name a few Cauchy, Nervier, Poisson, Coulomb, St. Venant and several others. 11 Strenght of Materials I - DAT
Specific Objectives It is expected that one should be in a position to understand ¢ The classification of different kinds of forces that structural components are subjected to. ¢ Effects of different forces on such components and their solution techniques. ¢ Different types of stresses and deformations that develop due to forces 12 Strenght of Materials I - DAT
Scope The scope of this particular course includes; ¢ Identification of different types of forces that the structural components will be subjected to. ¢ Systematic evaluation of the effects of these forces on such structural components. 13 Strenght of Materials I - DAT
Approach engineering applications. govern that govern equilibrium of ¢ Mainly confined to material useful to engineering applications. ¢ Laws of Newtonian mechanics that govern that govern equilibrium of forces. ¢ Essential to know the mechanical characteristics of the materials with which the member will be fabricated. 14 Strenght of Materials I - DAT
Units SI units will be used in this particular course. l Meter (m) for length l Kilogram (kg) for mass l Second (s) for time 15 Strenght of Materials I - DAT
Derived Units How to derive the units of the following: l Area ? l Velocity ? l Acceleration ? l Force ? 16 Strenght of Materials I - DAT
Body forces The body forces act throughout the body and associated with the units of volume of the body, l Gravitational force l Inertia force l Magnetic force 17 Strenght of Materials I - DAT
Surface Forces or area elements of a body ¢ The surface forces act on the surfaces or area elements of a body 18 Strenght of Materials I - DAT
Internal Forces 19 Strenght of Materials I - DAT
Internal forces ¢ Free body diagrams 20 Strenght of Materials I - DAT
Concept of Stress ¢ Direction of Stresses ¢ Shear Stresses ¢ Normal Stresses l Tensile l Compression 21 Strenght of Materials I - DAT
respective areas on which they act give us the forces and at section ¢ Stresses multiplied by the respective areas on which they act give us the forces and at section the vector sum of these forces is known as the stress resultant keep a body in equilibrium. 22 Strenght of Materials I - DAT
Example 1 Draw Free-Body Diagram 23 Strenght of Materials I - DAT
Example 2 Draw Free-Body Diagram 24 Strenght of Materials I - DAT
Summery The lessen include: of the subject l A general idea about the scope of the subject l Typical application areas l Concept of different forces l Concept of free-body diagram l Concept of Stress 25 Strenght of Materials I - DAT
Thank You 26 Strenght of Materials I - DAT