Nevşehir Hacı Bektaş Veli University Course Catalogue
|
|||||
| Year/Semester of Study | 1 / Fall Semester | ||||
| Level of Course | 2nd Cycle Degree Programme | ||||
| Type of Course | Optional | ||||
| Department | METALURJI VE MALZEME MüHENDISLIğI ANA BILIM DALı DOKTORA(ÖNERILEN PROGRAM) | ||||
| Pre-requisities and Co-requisites | None | ||||
| Mode of Delivery | Face to Face | ||||
| Teaching Period | 14 Weeks | ||||
| Name of Lecturer | MEHMET ÇAĞRI TÜZEMEN (cagrituzemen@nevsehir.edu.tr) | ||||
| Name of Lecturer(s) | |||||
| Language of Instruction | Turkish | ||||
| Work Placement(s) | None | ||||
| Objectives of the Course | |||||
| This course aims to provide engineering students with advanced knowledge beyond basic strength analysis methods. Students will explore stress analysis, deformation, mechanical properties of materials, and the effects of various loads on structural elements. Topics include bending of beams, torsion of shafts, buckling of columns, stress in rotating elements, statically indeterminate systems, and energy methods. The course covers complex problems and solutions, focusing on analyzing the mechanical behavior of structures and materials. | |||||
| Learning Outcomes | PO | MME | |
| The students who succeeded in this course: | |||
| LO-1 | The stress and deformation of structural elements under various loading conditions will be analyzed, and phenomena such as bending, torsion, and buckling will be calculated. |
PO-1 Accesses information in depth and breadth by conducting scientific research in the field of engineering, evaluates, interprets and applies information. PO-2 Completes and applies information using scientific methods using limited or incomplete data; integrates information from different disciplines. PO-3 Constructs engineering problems, develops methods to solve them and applies innovative methods in solutions. |
Examination |
| LO-2 | The mechanical properties of materials will be used to assess the durability of structures, and solutions to statically indeterminate systems will be performed. |
PO-2 Completes and applies information using scientific methods using limited or incomplete data; integrates information from different disciplines. PO-3 Constructs engineering problems, develops methods to solve them and applies innovative methods in solutions. PO-6 Develops methods to solve defined technological problems and applies innovative methods in solutions. |
Examination |
| LO-3 | Energy methods will be applied to structural analyses, and computer-aided solutions will be carried out using engineering software. |
PO-2 Completes and applies information using scientific methods using limited or incomplete data; integrates information from different disciplines. PO-3 Constructs engineering problems, develops methods to solve them and applies innovative methods in solutions. PO-5 Is aware of new and developing applications of the profession; examines and learns them when necessary. PO-6 Develops methods to solve defined technological problems and applies innovative methods in solutions. |
Examination |
| LO-4 | Advanced analysis methods will be used to ensure safety in engineering designs, and solutions will be developed for real-world problems. |
PO-1 Accesses information in depth and breadth by conducting scientific research in the field of engineering, evaluates, interprets and applies information. PO-2 Completes and applies information using scientific methods using limited or incomplete data; integrates information from different disciplines. PO-3 Constructs engineering problems, develops methods to solve them and applies innovative methods in solutions. PO-6 Develops methods to solve defined technological problems and applies innovative methods in solutions. |
Examination |
| PO: Programme Outcomes MME:Method of measurement & Evaluation |
|||
| Course Contents | ||
| This course aims to teach engineering students advanced strength analysis and stress calculation methods. Students will study the mechanical properties of materials, stress and deformation analysis, and explore topics such as bending of beams, continuous beams, torsion, column buckling, and stresses in rotating elements. Additionally, the course covers statically indeterminate systems, energy methods, complex stress conditions, and advanced solution techniques. Alongside theoretical knowledge, students will develop problem-solving skills through practical applications and examples. By the end of the course, students will be able to apply advanced stress analysis and calculation methods to ensure safety, durability, and efficiency in engineering designs. | ||
| Weekly Course Content | ||
| Week | Subject | Learning Activities and Teaching Methods |
| 1 | Concepts of stress and deformation | Lecture, question and answer |
| 2 | Mechanical Properties of Structural Materials | Lecture, question and answer |
| 3 | Stress Analysis | Lecture, question and answer |
| 4 | Statically Indeterminate Systems | Lecture, question and answer |
| 5 | Beams Subject to Bending | Lecture, question and answer |
| 6 | Continuous Beams and Loading Conditions | Lecture, question and answer |
| 7 | Torsion and Shafts | Lecture, question and answer |
| 8 | mid-term exam | |
| 9 | Buckling theory and critical load calculations | Lecture, question and answer |
| 10 | Stresses in Rotating Elements | Lecture, question and answer |
| 11 | Energy Methods | Lecture, question and answer |
| 12 | Virtual work and virtual stress methods | Lecture, question and answer |
| 13 | Complex Stress States | Lecture, question and answer |
| 14 | Advanced Methods for Statically Indeterminate Systems | Lecture, question and answer |
| 15 | Applied Examples | Lecture, question and answer |
| 16 | final exam | |
| Recommend Course Book / Supplementary Book/Reading | ||
| 1 | R.D. Cook, W.C. Young “Advanced Mechanics of Materials”, 2. Baskı, Prentice-Hall | |
| 2 | A.P. Boresi, R.J. Schmidt “Advanced Mechanics of Materials”, John Wiley & Sons; 6, Baskı | |
| Required Course instruments and materials | ||
| Assessment Methods | |||
| Type of Assessment | Week | Hours | Weight(%) |
| mid-term exam | 8 | 2 | 40 |
| Other assessment methods | |||
| 1.Oral Examination | |||
| 2.Quiz | |||
| 3.Laboratory exam | |||
| 4.Presentation | |||
| 5.Report | |||
| 6.Workshop | |||
| 7.Performance Project | |||
| 8.Term Paper | |||
| 9.Project | |||
| final exam | 16 | 2 | 60 |
| Student Work Load | |||
| Type of Work | Weekly Hours | Number of Weeks | Work Load |
| Weekly Course Hours (Theoretical+Practice) | 3 | 14 | 42 |
| Outside Class | |||
| a) Reading | 5 | 14 | 70 |
| b) Search in internet/Library | 3 | 10 | 30 |
| c) Performance Project | 0 | ||
| d) Prepare a workshop/Presentation/Report | 0 | ||
| e) Term paper/Project | 0 | ||
| Oral Examination | 0 | ||
| Quiz | 0 | ||
| Laboratory exam | 0 | ||
| Own study for mid-term exam | 4 | 2 | 8 |
| mid-term exam | 2 | 1 | 2 |
| Own study for final exam | 3 | 8 | 24 |
| final exam | 2 | 1 | 2 |
| 0 | |||
| 0 | |||
| Total work load; | 178 | ||