Machinery

Course Level

Associate's Degree

Course Delivery Format

Face to face

Coordinator

Lec. Dr. Mehmet Tekeli

Coordinator E-mail

mtekeli ktun.edu.tr

Instructor

Lec. Dr. Mehmet Tekeli

Course Assistant

Course Objective

The course will be held in the Basic Science and Materials Laboratories in the form of mutual lecture, experimentation, homework and evaluation.

Eng Temel Meslek Dersi	Eng Uzmanlaşma Dersi
30	70

Instructional Methods
Lecture, Discussion, Question and Answer, Experimentation, Practicing, Problem Solving

Week	Course Content	Resource
1	General concepts of strength, external and internal forces, types of support and reaction forces	Tekeli M., Strength Lecture Notes
2	Structural materials, stress types, simple tensile test, strain, strength values ??of materials, factor of safety	Tekeli M., Strength Lecture Notes
3	Normal force, shear force bending moment and diagrams in beams (Separation Principle)	Tekeli M., Strength Lecture Notes
4	Normal force, shear force bending moment and diagrams in beams (Moment area method)	Tekeli M., Strength Lecture Notes
5	Normal force, shear force bending moment and diagrams in beams (Moment area method)	Tekeli M., Strength Lecture Notes
6	Normal stress (tensile, compression) and sizing	Tekeli M., Strength Lecture Notes
7	Normal stress (tensile, compression) and strain	Tekeli M., Strength Lecture Notes
8	Stress, strain with thermal loads, stresses in thin-walled pressure vessels	Tekeli M., Strength Lecture Notes
9	Hyperstatic Systems	Tekeli M., Strength Lecture Notes
10	Midterm / Course repetition
11	Simple cutting and shaping	Tekeli M., Strength Lecture Notes
12	Torsional stress and strain	Tekeli M., Strength Lecture Notes
13	Calculation of center of gravity and moment of inertia in sections	Tekeli M., Strength Lecture Notes
14	Simple Bending, stress and strain	Tekeli M., Strength Lecture Notes
15	Compound Strength, Tensile-Shear, Tensile-Torsion	Tekeli M., Strength Lecture Notes

No	Course Outcomes (CO)	Percent
1	Ability to define strength values of basic materials	20
2	To be able to calculate stresses and strains in simple elements subjected to static loads such as tensile, compression, shear, torsion, buckling and bending.	20
3	Ability to use a material's stress-strain diagram to evaluate the strength and strain of a material	20
4	To be able to calculate the deformation of the material as a result of thermal stresses.	20
5	To be able to comprehend the basic design criteria of thin-walled pressure vessels	20

ECTS Workload	Number	Duration,Min	Total Workload
Weekly Lecture Hour (Theoretical)	14	135	1890
Weekly Practice/Lab Hour	0	0	0
Homework	4	60	240
Quiz	0	0	0
Material Design, Preparation	0	0	0
Field Studies	0	0	0
Report Preparation	0	0	0
Presentation	0	0	0
Project Making	0	0	0
Other Studies	6	60	360
Mid-Term exam and pre-study	1	600	600
Final Exam and pre-study	1	900	900

ECTS Workload	% of Mid-term Grading	% of Final Grading
Weekly Lecture Hour (Theoretical)	0	0
Weekly Practice/Lab Hour	0	0
Homework	0	0
Quiz	0	0
Material Design, Preparation	0	0
Field Studies	0	0
Report Preparation	0	0
Presentation	0	0
Project Making	0	0
Other Studies	0	0
Mid-Term exam and pre-study	40	0
Final Exam and pre-study	0	60