Ordu University Lifelong Learning Programme

Description of Individual Course Units

Course Unit Code	Course Unit Title	Type of Course Unit	Year of Study	Semester	Number of ECTS Credits
İMRP10420109132	STRENGTH OF MATERIALS	Compulsory	1	2	3

Level of Course Unit

Short Cycle

Objectives of the Course

The purpose of this course, students practice the basic rules of statics of rigid bodies and the shape-shifting under the influence of external loads and deformations of engineering structures and in terms of strength is to help develop engineering intuition. Another objective of this course is also in the shape of objects can be changed mechanics theories and approaches developed for advanced learners of this information to apply to complex systems design courses to facilitate the encounter.

Name of Lecturer(s)

Öğr. Gör. M. Selim ÇAKIROĞLU

Learning Outcomes

1	Tension, compression, shear, torsion and bending loads, such as exposure to static stress and strain occurring in simple structural elements to calculate displacements,
2	Calculate the deflection of a simple structural elements subjected to static loads,
3	Acting on a body of stress and strain components transform according to different coordinate systems,
4	Strength and shape of a material change to the performance evaluation based on the benefit of the material stress-strain diagram,
5	Does not lead to unexpected damage, especially the design of engineering structures, especially all the engineering activities to be aware of its responsibilities to society.

Mode of Delivery

Formal Education

Prerequisites and co-requisities

None

Recommended Optional Programme Components

None

Course Contents

Static repetition: the external loads acting on an object, support types and support forces, internal forces and the cutting method of calculation, Introduction to strength of Materials Introduction to Stress: normal stresses, shear stresses and bearing stresses; Strain: Hooke's Law and the elastic modulus, elongation of axially loaded bars , Poisson ratio, stretch and strain measurement of badges, Stress transformations: Mohr's circle, principal stresses and principal stress planes; Yield and fracture criteria pressure stresses dishes of thin-walled; Areas moments: the first (static) moments, and the second (inertial) moments, torsional Simple bending, transverse loading: Beam cross-section cutting force, normal force and bending moment, shear force and bending moment diagrams, stresses in beams, curved beams and elastic displacements (deflection): Integration method, the superposition method, the method of moments;

Weekly Detailed Course Contents

Week	Theoretical	Practice	Laboratory
1	Static repetition: the external loads acting on an object, support types and support forces, calculation of internal forces and the cutting method
2	Introduction of Strength, normal stresses, shear stresses and bearing stress
3	Strain: Hooke's Law and the elastic modulus, elongation of axially loaded bars , Poisson ratio, stretch and strain measurement of badges,
4	Stress transformations: Mohr's circle, principal stresses and principal stress planes Yield and fracture criterias
5	Pressure stresses dishes of thin-walled
6	Areas moments: the first (static) moments, and the second (inertial) moments
7	Torsions
8	Mid-term exam
9	Simple bending
10	Transverse loading: Beam cross-section cutting force, normal force and bending moment
11	Shear force and bending moment diagrams
12	Stresses in beams
13	Elastic curve and in beams displacements (deflection): Integration method, the superposition method
14	Curved beams and elastic displacements (deflection): Integration method, the superposition method, the method of moments;
15	Hyper-static problems and repeating
16	Final exam