FACULTY OF ENGINEERING
MECHANICAL ENGINEERING
Course Name   Modeling and Simulation of Deformation Prosess
Semester Course Code Theoretical / Practice time ECTS
8 1215846 3 / 0 4
Course Degree Bachelor's degree
Course Language Turkish
Format of Delivery: Face to Face
Course Coordinator Prof.Dr. Ali ÜNÜVAR
Coordinator e-mail aunuvar selcuk.edu.tr
Instructors
Asistant Instructors
Course Objectives The objective of the course is 1. to teach basic concepts of metal forming processes and how simulation is applied to metal forming processes. The students are to learn basics of metal forming analysis. The course is to teach basic concepts of modelling and simulation of deformation processes 2.To improve ability of team working
Basic Sciences Engineering Scinces Social Sciences Educational Sciences Artistic sciences Medical Science Agricultural sciences
40 60 0 0 0 0 0
Course Learning Methods and Techniquies
Face to face at classroom
Week Course Content Resource
1 Introduction Altan, Taylan, Gracious Ngaile, and Gangshu Shen, eds. Cold and hot forging: fundamentals and applications. Vol. 1. ASM international, 2005.
2 Role of simulation in product and process development Lecture notes
3 Basic analysis concepts Lecture notes
4 Material properties Meshing Lecture notes
5 Boundary conditions Lecture notes
6 CAD Model construction Lecture notes
7 Basic solution types & limitations Lecture notes
8 Midterm Examination
9 Simulation model verification Lecture notes
10 Introduction to Optimization Lecture notes
11 Project reporting Lecture notes
12 Meshing algoritms Lecture notes
13 Metal forming analysis Lecture notes
14 Two and three dimension flow analysis of metal forming processes Lecture notes
15 Two and three dimension flow analysis of metal forming processes Lecture notes
Assesment Criteria   Mid-term exam Final exam
  Quantity Percentage Quantity Percentage  
Term Studies : - - - -
Attendance / Participation : - - - -
Practical Exam : - - - -
Special Course Exam : - - - -
Quiz : - - - -
Homework : 1 20 - -
Presentations and Seminars : - - - -
Projects : - - - -
Workshop / Laboratory Applications : - - - -
Case studies : - - - -
Field Studies : - - - -
Clinical Studies : - - - -
Other Studies : - - - -
Mid-term exam   1 20 - -
Final exam   - - 1 60
ECTS WORK LOAD TABLE   Number Duration
Course Duration : 14 3
Classroom Work Time : 10 5
Presentations and Seminars : - -
Course Internship : - -
Workshop / Laboratory Applications : - -
Field Studies : - -
Case studies : - -
Projects : - -
Homework : 1 5
Quiz : - -
Mid-term exam : 1 11
Final Exam : 1 12
ECTS 4
No COURSE LEARNING OUTCOMES CONTRIBUTION
D.Ö.Ç. 1 i. Adequate knowledge in mathematics, science and engineering subjects pertaining to the relevant discipline ability to use theoretical and applied information in these areas to model and solve engineering problems. 4
D.Ö.Ç. 2 ii. Ability to identify, formulate, and solve complex engineering problems ability to and apply proper analysis and modeling methods for this purpose. 3
D.Ö.Ç. 3 iii. Ability to design a complex system, process, device or product under realistic constraints and conditions, in such a way as to meet the desired result ability to apply modern design methods for this purpose. (Realistic constraints and conditions may include factors such as economic and environmental issues, sustainability, manufacturability, ethics, health, safety issues, and social and political issues, according to the nature of the design.) 3
D.Ö.Ç. 4 iv. Ability to devise, , and use modern techniques and tools needed for engineering practice ability to employ information technologies effectively. 3
D.Ö.Ç. 5 v. Ability to work efficiently in intra-disciplinary and multi-disciplinary teams ability to work individually. 3
* 1: Zayıf - 2: Orta - 3: İyi - 4: Çok İyi
COURSE LEARNING OUTCOMES AND PROGRAM OUTCOMES AND RELATIONSHIPS MATRIX

DÖÇ1DÖÇ2DÖÇ3DÖÇ4DÖÇ5DÖÇ6DÖÇ7DÖÇ8DÖÇ9DÖÇ10DÖÇ11DÖÇ12DÖÇ13DÖÇ14DÖÇ15DÖÇ16DÖÇ17DÖÇ18DÖÇ19DÖÇ20
PÇ1
PÇ2
PÇ3
PÇ4
PÇ5
PÇ6
PÇ7
PÇ8
PÇ9
PÇ10
PÇ11
PÇ12
PÇ13
PÇ14
PÇ15
PÇ16
PÇ17
PÇ18
PÇ19
PÇ20