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GRADUATE COURSE DETAILS
Course Title: Advanced Strength of Materials Code : Kodu :MKM5228
Faculty or VS: Programme: Mechanical Eng.
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 3 6
Semester Fall Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
Teaching advanced strength of materials subjects which are not covered in conventional strength of materials lectures based on undergraduate education curriculum.
Learning Outcomes and Competencies
Students will gain a wider perspective on engineering design and analysis procedures with an understanding on advanced strengh of materials subjects.
Textbooks and /or References
F.P. Beer, E.R. Johnston, J.T. DeWolf, D.F. Mazurek, “Cisimlerin mukavemeti”, Çevirenler: A. Soyuçok, Ö. Soyuçok, 6. Basımdan çeviri (2014). Ugural C. A. and Fenster S. K., “Advanced Strength and applied Elasticity” – 4th Edition, Prentice Hall (2003). Boresi A. P. and Schmith R.J., “Advanced Strength of Materials” – 6th Edition, Wiley, (2002).
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams x 40 Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam x 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction, Plastic Deformations in Circular Shafts Plastic Deformations in Noncircular Shafts Residual Stresses in Circular Shafts and Thin-Walled Hollow Shafts Plastic Deformations and residual stresses in bending Bending of Curved Members Using Singularity Functions to Determine Shear and Bending Moment in a Beam Nonprismatic Beams Unsymmetric Loading of Thin-Walled Members Two and Three-Dimensional Analysis of Strain, Mohr’s circle, Measurements of Strain Stresses under Combined Loadings Using Singularity Functions to Determine the Slope and Deflection of a Beam Moment-Area Theorems Design of Columns under an Eccentric Load Castigliano’s Theorem
Instructor/s Assist.Prof.Dr. Akın ATAŞ
e-mail [email protected]
Website http://kompozit.balikesir.edu.tr/en_US/kisiler/calisanlar/yrd-doc-dr-akin-atas/
GRADUATE COURSE DETAILS
Course Title: Failure Analysis of Composite Materials
Code : MKM5238
Faculty or VS: Programme: Mechanical Eng.
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 3 6
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Students will gain computer aided failure analysis capabilities for composite materials.
Learning Outcomes and Competencies
Students will be able to analyze the failure of composite materials using a software package program.
Textbooks and /or References
Ever J. Barbero , “Finite Element Analysis of Composite Materials ”, CRC Press, 2007. O.O. Ochoa, J.N. Reddy, “Finite Element Analysis of Composite Laminates”, Springer, 1992. E.E. Gdoutos, K. Pilakoutas, C.A. Rodopoulos, “Failure Analysis of Industrial Composite Materials”, McGraw-Hill, 2000.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams x 40 Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam x 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction, Micromechanics of Failure Under Longitudinal Tension (Mechanics Approach) Micromechanics of Failure Under Compression Matrix Cracking, Fiber-Matrix Debonding Micromechanics of Failure Under Transverse Tension, Compression or Shear Macroscopic Failure Mechanisms Failure Criteria (Maximum Stress, Maximum Strain) Failure Criteria (Tsai-Hill, Hofman, Tsai-Wu) Failure in Sandwich Structures Failure in Beams and Columns Failure in Fabric-reinforced Composites First-ply Failure Analysis Progressive Failure Analysis using Shell Elements Progressive Failure Analysis using Solid Elements Delamination Analysis using Cohesive Zone Elements
Instructor/s Assist.Prof.Dr. Akın ATAŞ
e-mail [email protected]
Website http://kompozit.balikesir.edu.tr/en_US/kisiler/calisanlar/yrd-doc-dr-akin-atas/
GRADUATE COURSE DETAILS
Course Title: Finite Element Analysis of Composite Materials
Code : MKM5141
Faculty or VS: Programme: Mechanical Eng.
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 3 6
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Students will gain computer aided analysis capabilities for composite materials.
Learning Outcomes and Competencies
Students will be able to analyze the composite materials using a software package program.
Textbooks and /or References
Ever J. Barbero , “Finite Element Analysis of Composite Materials ”, CRC Press, 2007. O.O. Ochoa, J.N. Reddy, “Finite Element Analysis of Composite Laminates”, Springer, 1992.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams x 40 Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam x 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction, Element Types used in Analysis of Composite Materials (Implicit Analysis) Defining the Laminated Structure using Shell and Solid Elements (Implicit Analysis) Modelling, Analysis and Interpretation of the Results in 2-D Plates (Implicit Analysis) Thermal Stress Analysis in Composite Plates (Implicit Analysis) Modelling Sandwich Structures (Implicit Analysis) Fracture Mechanics Application (Implicit Analysis) Modelling and Analysis of Composite Pressure Vessels Modelling and Analysis of Cantilever and Simply Supported Laminates 3-Dimensional Modelling, Analysis and Interpretation of the Results (Implicit Analysis) Stress Analysis of Pin/Bolt Loaded Laminates (2-D and 3-D) Explicit Element Types and Material Properties Drop Test Modelling, Analysis and Interpretation of the Results Impact Test Modelling, Analysis and Interpretation of the Results Behaviour of Composite Laminates under Different Impact Velocities
Instructor/s Assist.Prof.Dr. Akın ATAŞ
e-mail [email protected]
Website http://kompozit.balikesir.edu.tr/en_US/kisiler/calisanlar/yrd-doc-dr-akin-atas/
GRADUATE COURSE DETAILS
Course Title: Mechanics of Composite Plates Code : MKM5130
Faculty or VS: Programme: Mechanical Eng.
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 3 6
Semester Fall Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
The objective is to teach theoretical mechanics of fiber reinforced polymer composite materials in micro and macro levels.
Learning Outcomes and Competencies
Understanding the fundamental differences between the theoretical mechanics of fibre reinforced composite materials and conventional metallic materials, conducting the fundamental mechanical analysis of basic composite plates and structures.
Textbooks and /or References
Autar K. Kaw, “Mechanics of Composite Materials ”, Çevirenler: B. Okutan Baba, R. Karakuzu, Efil Yayınevi, (2014). Robert M. Jones, “Mechanics of Composite Materials ”, Taylor & Francis (1999).
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams x 40 Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam x 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
General introduction to composites and applications, classification and general terminology Macromechanical analysis of a lamina, Hooke’s law for different type of materials Hooke’s law for two dimensional/angle lamina Engineering Constants of an Angle Lamina Strength Failure Theories of an Angle Lamina Hygrothermal Stresses and Strains in a Lamina Micromechanical analysis of a lamina, Evaluation of the Elastic Moduli Ultimate Strengths of a Unidirectional Lamina and Coefficients of Thermal Expansion Macromechanical Analysis of Laminates , Stress–Strain Relations for a Laminate Hygrothermal Effects in a Laminate Special Cases of Laminates (Symmetric, Antisymmetric, Cross-ply, balanced) Design of a Laminated Composite Sandvich Composites Bending of Composite Beams
Instructor/s Assist.Prof.Dr. Akın ATAŞ
e-mail [email protected]
Website http://kompozit.balikesir.edu.tr/en_US/kisiler/calisanlar/yrd-doc-dr-akin-atas/
GRADUATE COURS E DETAILS
Course Title: PHASE DIAGRAMS Code : MKM5121 Institute: Institute of Science and Technology
Field: Mechanical Engineering
Education and Teaching Methods Credits
Lectur
e Application Lab.
Project/
Field Study
Hom
ewor
k
Othe
r Total
Credit
T+A+L=Credit ECTS
42 - - - 70 92 204 3+0+0= 3 6
Semester Autumn Language Turkish
Course Type Basic
Scientific Scientific
Technical
Elective
Social
Elective
Course
Objectives
The definit ion and the interpretion of the phase diagrams, the investigation of how , when and for
which purpose they have been used in heat treatments.
Learning
Outcomes
and
Competencies
Can evaluate and interpret the phase diagrams
Can calcu late the amount of phases
Can provide the right alloying process
Can apply the correct heat treatment
Textbooks
and /or
References
1. Phase Transformation in Metals and Alloys, D.A. Porter, K.E. Easterling
2. The Science and Engineering of Materials, D. R. Askeland
3. ASM Handbook Volume: 03, A lloy Phase Diagrams
ASSESS MENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent
(%)
If any,
mark as
(X)
Percent
(%)
Midterm Exams X 40 Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Pro ject
Reports, etc. Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Introduction
Solidification of materials, solid solution and grain size hardenings
Phases and solubility
Conditions for non-limit miscibility in the solid state
Izomorphos phase diagrams, relat ionship between phase diagram and strength
Stable and instable cooling of solid solution alloys
Segregation in solidification and castability of alloys
Ceramic and polymer systems
Principles of d ispersion hardening
Intermetallic compounds
Strength of eutectic alloys and eutectic phase diagram
Instable solidificat ion in eutectic system
Peritectic and monotectic reactions
Ternary phase diagrams and their evaluation
Instructor/s Assist.Prof.Dr. Alaaddin TOKTAŞ
e-mail [email protected]
Website ---
GRADUATE COURS E DETAILS
Course Title: ADVANCED HEAT
TREATMENT Code:MKM 5219
Institute: Institute of Science and
Technology
Field: Mechanical Engineering
Education and Teaching Methods Credits
Lecture Application Lab.
Project/
Field
Study
Homewor
k
Oth
er Total
Credit
T+A+L=Credit ECTS
42 - - - 70 92 204 3+0+0= 3 6
Semester Autumn Language Turkish
Course Type Basic
Scientific
Scient
ific Technical
Elective
Social
Elective
Course
Objectives To analyse the problems encountered in production, to improve the properties of steels
Learning
Outcomes
and
Competencies
Can gain the ab i lity o f harden ing and temper ing .
Have s uffic ien t knowledge on s urface harden ing t reatments .
Can decide the method of heat t reatment .
Can avo id the defects o f heat t reatment .
Textbooks
and /or
References
1. Rollason, E.C., “Metalurgy For Engineers” Edward Arnold (publishers) Ltd. 41 Bedford
Square London
2. Topbaş, M, A ., “Heat Treatments” Prestij Basın Yayın, İrfan Baştuğ Cad. Yuva 4 Apt.
Kat 2. Di 8, Esantepe / İstanbul
3. Tekin, A., “Steel and Heat Treatment” Hakan Ofset K.Ayasofya Cad. No:82/2, 1984
Sultanahmet / İSTANBUL
ASSESS MENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent
(%)
If any,
mark as
(X)
Percent
(%)
Midterm Exams X 40 Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Pro ject
Reports, etc. Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Introduction
General terms and heat treatment methods
Material properties that can be changed by heat treatments and importance in the selection of
materials
Structure and phase transformat ions in ferrous alloys
Alloying elements in steel and their effects on steel properties
Structure transformations occured by heating steel
Izothermic-t ime-temperature t ransformat ion diagrams in cooling austenized steel and
continous cooling transformat ion diagrams
Annealing methods of steel. Normalization, stress relief and recrystallisation annealings
Softening, coarse grain and patenting annealings and their applications
Hardening of steels, martensitic structure, bainitic structure and properties
Hardenability, determining of hardenability by jominy test and calculating method
Cooling mediums used in hardening steels and tempering processes for steels
Surface hardening processes applied steels by varying the composition or not
Heat treating of tool steels
Instructor/s Assist.Prof.Dr. Alaaddin TOKTAŞ
e-mail [email protected]
Website ---
GRADUATE COURSE DETAILS
Course Title: COMPUTER INTEGRATED
MANUFACTURING
Code : MKM
5223
Institute:Graduate School Of Natural And Applied Sciences Field: Mechanical Engineering
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 0 0 70 0 92 204 3 6
Semester Autumn/Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To give information about computer controlled machine tools programming by defining the CAD and CAM systems
Learning Outcomes and Competencies
Students could be using CAD/CAM programs/softwares and maching a part on a CNC machining center
Textbooks and /or References
Muharrem NALBANTOĞLU, Bilgisayarla Bütünleşik Tasarım ve İmalat, Beta Yayın Dağıtım-1997 David L,GOETSCH, Advanced Manufactureng Technology, Delmar Published, 1990 Cemal ÇAKIR, Modern Talaşlı İmalatın Esasları, Vipaş Aş, 1999
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
X 50 Oral Examination
Laboratory Work Final Exam
Final Exam X 50 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction Computer Graphics 2D and 3D Transformations Curves, surface modeling and solid modeling Elements of Computer Integrated Manufacturing System Computer Aided Design Group Technology Computer Aided Process Planning Computer Aided Manufacturing Computer Control and Computer controlled machine tools Computer Integrated manufacturing Applications of CAD/CAM Software Applications of CAD/CAM Software Applications of Computer Controlled Machine Tools
Instructor/s Assoc. Prof. Dr. Ali ORAL
e-mail [email protected]
Website
GRADUATE CURRICULUM DETAILS
Course Title: METHODICAL DESIGN
Code : MKM 5136
Name of the Programme: MECHANICAL
ENGINEERING
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/
Field Study
Hw. Other Total Credit ECTS
42 0 0 120 40 38 240 3 6
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Contents
Importance of the engineering design, historical development of mechanical systems, the methods of methodical
design approaches, steps of methodical design, design task, explanation of the task, list of demands, conceptual design, solution suggestions, f inding best solution, technical and economical criteria, project design, error searching in design, ergonomics aspects, safely design, risk factors, computer aided design.
Course
Objectives
The main objective of the course is to provide of the engineering design process and to develop engineering
design synthesis ability. Students are encouraged to develop a creative or/and innovative design project on
preferably a real design problem, possibly manufacturing a prototype.
Learning
Outcomes and Competences
1. Will understand the basic principles of methodical construction.
2. Learns to produce many ideas and implements methods. 3. Group work projects are implemented in time, learn the concepts of leadership and group employees. 4. The project won in the other courses in computer modeling and analysis capabilities that uses. 5. Ergonomics and environmental factors are no longer indispensable for designers to learn
Textbook and /or
References
1. Course notes 2. Makine Elemanları Prof. Dr. Fatih C. Babalık, Nobel Yayıncılık, 2008. 3. The Mechanical Design Process, Ullman, David G, NewYork : McGraw -Hill, Inc., 1992
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks x 20 Term Paper
Term Paper (Projects,reports, ….)
x 40 Oral Examination
Laboratory Work Final Exam
Final Exam x 40 Other
Other
Week Subjects
1
2 3 4 5
6 7 8 9
10 11 12 13
14
Introduction
The design process and morphology Problem solving and decision making Using of computers in engineering design Project engineering, planning and management
Conceptual design Methodical design thinking ability Methodical design thinking ability Economic decision making and cost evaluation
Economic decision making and cost evaluation Human and ecological factors in design Human and ecological factors in design Case studies in mechanical engineering design
Case studies in mechanical engineering design
Instructors Assoc.Prof.Dr. Ali ORAL
E-mail [email protected]
Website http://www.alioral.net
GRADUATE COURSE DETAILS
Course Title: Preparation Techniques R & D Projects
Code: MKM5142 Institute : The Institute Of Science And Technology Field : Mechanical Engineering
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study Homework Other Total T+A+L=Credit ECTS
42 0 0 62 50 50 204 3+0+0=3 6
Semester Autumn Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
Research and development is an important train the labor force in the preparation of the project will be presented to organizations that support R & D projects today.
Learning Outcomes and Competences
University and to work in the industry and information and cultivating equipment with the capacity to prepare those elements of R & D projects.
Textbook and /or References
---
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes X 5 Midterm Controls
Homeworks X 10 Term Paper
Term Paper (Projects,reports,.)
X 20 Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other X 5
Week Course Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
R & D What is it ? What is the purpose? Parameters to be taken into account in determining the R & D topics Importance of R & D Business, World Examples of R & D Organizations supporting R & D Projects in Turkey And team-building capabilities in R & D employees to search Identification of priority areas, points to be considered in the writing of project inputs and purpose section Industrial R & D content of the project Innovative Technology Level and Direction Project Preparation Process R & D, R & D for the literature and evaluation Eligibility for the project of writing the Project Plan and Organisation Infrastructure R & D Project Preparation Process; Creation of working in the R & D project costs Economic Benefits and the National to recovery interchangeability of Project Outputs R & D Failure Causes Rules to be followed in the Project Final Report Writing
Course Teacher Prof. Dr. Bedri YÜKSEL
E-Mail [email protected]
Web Adresi
GRADUATE COURSE DETAILS
Course Title: Planning and Operating of High Capacity Heat Generation and Utilization Systems
Code: MKM5113 Institute : The Institute Of Science And Technology Field : Mechanical Engineering
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study Homework Other Total T+A+L=Credit ECTS
42 0 0 62 50 50 204 3+0+0=3 6
Semester Autumn Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
Training well-informed engineers about installing and operating of large energy consuming heating plants.
Learning Outcomes and Competences
Training technical people for installing and operating of heat plants which installed for the purpose of providing electricity and other energy requirements of district heating systems and industrial systems.
Textbook and /or References
- Rüknettin Kaçükçalı, Isıtma Tesisatı, ISISAN yayınları No.265
- Rüknettin Kaçükçalı, Kızgın sulu ısıtma sistemleri, ISISAN yayın ları No.265
- Rüknettin Kaçükçalı, Isıtma Sistemlerindeki Son geliş meler, ISISAN yayınları No.1
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes X 5 Midterm Controls
Homeworks X 10 Term Paper
Term Paper (Projects,reports,.)
X 20 Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other X 5
Week Course Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
General information about heating plants. Location determination on heating plants. Properties of district heating systems and industrial heating systems. Fuel selection for heating plants. Steam generation aimed heat plants and their elements. Types and selection method of steam boilers, pressuring and operating of systems. Low pressure vapor systems. High pressure vapor systems. Dispelling of water hardness (decalcification systems) Superheated water systems, system forms and elements. Pressuring methods of superheated water systems. Superheated oil systems. Cogeneration systems. Energy savings in heat plants and environment.
Course Teacher Prof. Dr. Bedri YÜKSEL
E-Mail [email protected]
Web Adresi
GRADUATE COURSE DETAILS
Course Title:
Principles of Internal Combustion Engines Test
Code: MKM5214
Institute : The Institute Of Science And Technology Field : Mechanical Engineering
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study Homework Other Total T+A+L=Credit ECTS
42 - - 62 50 50 204 3+0+0=3 6
Semester Spring Language Turkish
Course Type
Basic Scientific
Basic Scientific
Technical Elective
Social Elective
Course Objectives To teach theoretical and practical knowledge of Internal Combustion Engines Test,
Learning Outcomes and Competences
The course will upgrade the level of skills of engineers so that they can perform and
evaluate engine tests.
Textbook and /or References
- İ.Hakkı ÖZ, Oğuz BORAT, A li SÜRMEN , Internal Combustion Engines, Alfa Basın yayım
Dağıtım,LTD.
- Oğuz BORAT, Mustafa BALCI, A li SÜRMEN, İçten Yanmalı Motorlar, G.Ü.Teknik Eğit im
Fakültesi
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes X 5 Midterm Controls
Homeworks X 10 Term Paper
Term Paper (Projects,reports,.)
X 20 Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other X 5
Week Course Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Main concepts With Internal Combustion Engines Principles of Internal Combustion Engine tests Test room design Power measurement and dynamometers Choosing the right dynamometer Measurement of torque, power, engine speed Measurement of fuel consumption Measurement of air consumption Thermal efficiency and specific fuel consumption Heat losses and Mechanical losses Exhaust emissions characteristics Energy and exergy analysis IC enginees Cylinder pressure-volume diagrams and combustion analysis Accuracy and statistical analysis of test results
Course Teacher Prof. Dr. Bedri YÜKSEL
E-Mail [email protected]
Web Adresi
GRADUATE COURSE DETAILS
Course Title:
Principles of Energy Conversion Code: MKM5215
Institute : The Institute Of Science And Technology Field : Mechanical Engineering
Education and Teaching Methods Credits
Lecture Applicatio
n Lab.
Project/
Field Study
Homework Other Total T+A+L=Credit ECTS
42 - - 62 50 50 204 3+0+0=3 6
Semester Spring Course Language Turkish
Course Type
Basic Scientific
Basic Scientific
Technical Elective
Social Elective
Course Objectives
- To inform students about world energy resources and problems.
- To explain the principles of gaining energy in power plants. Learning Outcomes and Competences
Educating well-informed engineers about world and country energy problems and making
them environmentally-conscious.
Textbook and /or References
- John W. Twidell and Anthony D.Weir, Renewable Energy Resources , Printed in Great Britain at
The Universty Press.Cambridge.
-Mustafa ACAROĞLU, A lternatif Enerji kaynakları,Nobel yayın Dağıtım A.Ş.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes X 5 Midterm Controls
Homeworks X 10 Term Paper
Term Paper (Projects,reports, .)
X 20 Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other X 5
Week Course Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Energy related concepts. Turkey and world energy problem, values of energy consumption and energy production. Energy resources. Thermodynamic cycles. Fuels used in thermal and nuclear power plants and combustion. Thermal power plants, common fuels, determining location. Elements used in thermal power plants. Nuclear power plants, nuclear fission and fusion, nuclear fuels. Elements of nuclear power plants and determining location. Electricity generation from geothermal energy. Wind energy. Electricity generation from solar energy. Other energy resources and energy storing. Power plants and environment
Course Teacher Prof. Dr. Bedri YÜKSEL
E-Mail [email protected]
Web Adresi
GRADUATE COURSE DETAILS
Course Title:
New and Renewable Energy Resources Code: MKM 5129
Institute : The Institute Of Science And Technology Field : Mechanical Engineering
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study
Homework Other Total T+A+L=Credit ECTS
42 - - 62 50 50 204 3+0+0=3 6
Semester Autumn Course Language Turkish
Course Type
Basic Scientific
Basic Scientific
Technical Elective
Social Elective
Course Objectives
The purpose of the course is to give the methods to the students about how to use renewable energy sources and direct students to search in this subject.
Learning Outcomes and Competences
• to understand the significance of renewable energy resources development and
utilization, • to acquire the techniques in various fields to exploit the renewable energy resources, • to understand the factors in effective utilization of energy resources,
Textbook and /or References
-M.M.el-Wakil Powerplant Technology, McGrow-Hill İnternational Ed ition
-Archie W. Culp,Prenciples of Energy Conversion, McGrow-Hill İnternational Ed ition
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes X 5 Midterm Controls
Homeworks X 10 Term Paper
Term Paper (Projects,reports, ..)
X 20 Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other X 5
Week Course Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Energy sources, energy types and classification, Principles of renewable energy Solar Energy introduction, sun-earth geometric relations, solar radiation Solar energy collectors, Other uses for solar heat and cool Photovoltaic energy conversation Geothermal Energy, introduction, types of Geothermal Energy, Vapor-dominated, liquid-dominated and other geothermal systems Wind Energy, history of wind power, principles of wind power, wind turbine types Biofuels, biofuel classification, Biogas, Alcohols, Vegetable Oils, Hydrogen energy, Hydro-power The Other Energy Types Environmental Impact of energy systems Wave Energy, tidal energy, energy storage and distribution
Course Teacher Prof. Dr. Bedri YÜKSEL
E-Mail [email protected]
Web Adresi
GRADUATE COURSE DETAILS
Course Title: S UBCOOLING
Code : MKM 5101
Institute: SCIENCE AND TECHNOLOGY
Field: MECHANICAL ENGINEERING
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
48 0 0 30 78 156 3+0+0=3 6
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Understanding subcooling technique and selecting criteria
Learning Outcomes and Competencies
LO1. The need for low temperature refrigeration system determines the necessary processes were heard, and can design LO2. Students know liquefaction of gases, separation of gases, food freezing,etc.
Textbooks and /or References
Refrigeration and Air-Conditioning, Richard C. Jordan, Prentice-Hall, 1948 Refrigeration Systems and Applications, Dinçer İ., Ed.2.,Wiley, 2010
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 30 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 70 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Joule experiment and Joule-Thomson effect
Thermodynamic properties of gas and vapour
Need of subcooling and measuring Subcooling by ice- brine mixture
subcooling by expanding of gas and evaporating of liquid
Cascade Systems
Explain of Joule Thomson effect and thermodynamic analysis
magnetic subcooling magnetic subcooling
liquefy of air
Linde method
Claude Method
Production dry ice Unreachable status of absolute zero degree
Instructor/s Asst. Prof. Dr. Enver YALÇIN
e-mail [email protected]
Website http://mmf.balikesir.edu.tr
GRADUATE COURSE DETAILS
Course Title: Various Cooling Systems
And Design
Code : MKM 5201
Institute: SCIENCE AND TECHNOLOGY
Field: MECHANICAL ENGINEERING
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
48 0 0 30 78 156 3+0+0=3 6
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Introduce applicable cooling systems instead of vapour compressed cooling systems
Learning Outcomes and Competencies
LO1. Students know alternative cooling systems used in the application. LO2. Students can select suitable system to energy sources and design it.
LO3. Students can compare subcooling systems to each other.
Textbooks and /or References
Refrigeration and Air-Conditioning, Richard C. Jordan, Prentice-Hall, 1948
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 30 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 70 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Vortex tube Thermoelectric cooling Magnetic cooling Air cycle cooling system Air cycle cooling system Steam-jet cooling system Thermodynamic analysis of steam-jet cooling system Thermodynamic analysis of steam-jet cooling system Absorption refrigeration Thermodynamic analysis of absorption refrigeration Absorption refrigeration and examples of application Vacuum precooling Subcooling systems Subcooling systems
Instructor/s Asst. Prof. Dr. Enver YALÇIN
e-mail [email protected]
Website http://mmf.balikesir.edu.tr
GRADUATE COURSE DETAILS
Course Title: CORROSION ENGINEERING
Code : MKM 5210
Institute: SCIENCE AND TECHNOLOGY Field: MECHANICAL ENGINEERING
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 0 0 70 92 204 3+0+0=3 6
Semester Autumn Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
Metals and alloys used in industry, are exposed to different types of corrosion processes in environments. The main tasks of the engineers are to know corrosion processes, taking action against them and to extend the life of structures.
Learning Outcomes and Competencies
To have knowledge about corrosion behaviors of metals.
Textbooks and /or References
Korozyon ve Önlemleri Prof.Dr.Mustafa DORUK ODTÜ Metalurji Müh. Bölümü Yayın No: 70 Corrosion Engineering, Fontana, M.G. N.D. Greene Mc Graw-Hill, New York 1978 Corrosion and Corrosion Control Uhlig, H. H. John Wiley and Sons Inc. New York, 1971
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Conductivity Obtaining electrical energy from chemical reactions Electro-chemical batteries Transported and nontransported chemical batteries Transported and nontransported concentration batteries Ph and measurement of Ph General definition of corrosion Thermodynamic approach to corrosion Differences between Electrochemical voltage series and galvanic series Types of corrosion encountered in constructions Measures against corrosion, reducing the conditions that lead to corrosion using suitable design Partial or complete removal of the media aggression Surface coatings for protection. Cathodic protection is a method and application techniques Corrosion-resistant materials selection
Instructor/s Asst. Prof. Dr. Gürol DEMİRBAŞ
e-mail [email protected]
Website http://mmf.balikesir.edu.tr
GRADUATE COURSE DETAILS
Course Title: MATERIAL
THERMODYNAMICS
Code : MKM 5110
Institute: SCIENCE AND TECHNOLOGY Field: MECHANICAL ENGINEERING
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 0 0 70 92 204 3+0+0=3 6
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
A lot of thermodynamical parameters have to be known to calculate the corrosion trend of metals.
Learning Outcomes and Competencies
To have information about the corrosion tendency of materials.
Textbooks and /or References
CEBE,M.,Fizikokimya Cilt 1 Uludağ Üniversitesi Basımevi 1987 PEKİN,B.,Fizikokimya Dersleri Cilt 3 E.Ü.Fen Fak.Kitapları Serisi No27 1978 BARROW, N.G,.Physical Chemistry McGraw-Hill Kogagusha Ltd. Tokyo 1973 CEBE,M., Atom ve Molekül Kimyası , Ezgi Kitapevi Yayınları Mart 1991 Bursa.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
First law of thermodynamics and energy
Properties of energy Determining of energy changes
Second law of thermodynamics
Entropy and its properties
Relation between systems entropy and the other manner variables
Entropy as volume and heat function Entropy as pressure and heat function
Free enthalpy
Free energy
Four basic equations of thermodynamics
Properties of free energy and free enthalpy Effect of pressure and heat on free energy
Dependence of free enthalpy on heat (Gibbs-Helmholtz equations)
Instructor/s Asst. Prof. Dr. Gürol DEMİRBAŞ
e-mail [email protected]
Website http://mmf.balikesir.edu.tr
GRADUATE COURS E DETAILS
Course Title: METALLOGRAPHY Code:MKM5222
Institute: Institute of Science and
Technology
Field: Mechanical Engineering
Education and Teaching Methods Credits
Lectur
e Application Lab.
Project/
Field Study
Hom
ewor
k
Othe
r Total
Credit
T+A+L=Credit ECTS
42 - - - 70 92 204 3+0+0= 3 6
Semester Autumn Language Turkish
Course Type Basic
Scientific
Scient
ific
Technical
Elective
Social
Elective
Course
Objectives
Making the microstructure control in metals, observing the variation between microstructure and
property, examin ing the microstructure in special structures
Learning
Outcomes
and
Competencies
To gain the ability of preparing standard samples for microstructure observation
To gain the ability of knowledge and experience on types of phases and distribution of them.
To gain the ability of relating the property and microstructures,
Can contribute for the right and quality production.
Textbooks
and /or
References
1. Prof.Dr. A. Emel GEÇKİNLİ, Metallography, İ.T.Ü.,No:1391 (1989).
2. Prof.Dr. Serdar SALMAN, Dr. H.Özkan GÜLSOY, The Science of Metallography,
Nobel Yayın Dağıtım, (2004).
ASSESS MENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent
(%)
If any,
mark as
(X)
Percent
(%)
Midterm Exams X 40 Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Pro ject
Reports, etc. Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Introduction
The relations between microstructure and property of metallic materials
Metallurgy(optic) microscope, its definition, objective and properties
Objective defects, light sources
Examining methods in microscope
Sample preparat ion for optic microscope and pre-treatments
Polishing, polishing methods and instruments
Etching and its types
Preparation of ceramic materials for metallographic investigation
Metallographic methods for aluminium and its alloys
Macro and micro examination of alumin ium alloys and solidification structure of a lumin ium
ingots
Solification structure of pure, single phased and eutectic systems
Cold deformed and recrystallized structures
The structure of Iron-Carbon Alloys
Instructor/s Yard. Doç.Dr. Gülcan TOKTAŞ
e-mail [email protected]
Website ---
POST GRADUATE COURSE DETAILS
Course title: Applied Numerical Analysis Code : MKM5236 Institute: Science and Technology Field: Mechanical Engineering
Education and Teaching Methods Credits
Lecture Application Laboratory Project/ Field Study
Homework Other Total T+A+L= Credits
ECTS
42 0 0 0 70 128 240 3+0+0=3 6
Semester 2 Language Turkish/English
Course Type Basic Scientific
Scientific
Technical Elective
Social Elective
Course Objectives
To teach the numerical solution methods to solve the mathematical models that represents physical systems which are not be analytically solved or have complicated and long analytical solution in engineering.
Learning Outcomes and Competences
LO1: to select a suitable numerical methods for a mathematical problems LO2: to apply numerical method on engineering problems LO3: to find the best solution for the numerical problems and to make error analysis LO4: to solve linear and non-linear equations and apply engineering problems LO5: to use interpolation methods and apply engineering problems LO6: to use methods of numerical differentiation and numerical integration and apply engineering problems LO7: to apply curve fitting methods to various data or experimental values
Textbook and/or Referances
1. Sayısal Analiz ve Mühendislik Uygulamaları, İrfan Karagöz, Nobel Yayın, 2008. 2. Applied Numerical Analysis, C.F. Gerald, P.O. Wheatley, Addison Wesley Pub., 1984. 3. Mühendisler için Sayısal Yöntemler, S.C. Chapra, R.P. Canale, Literatür Yayınları,İstanbul, 2003 4. Sayısal Analiz, B. Çağal, Seç Yayıncılık, 1989.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homeworks Term Paper
Term Paper (Projects,reports, .)
Oral Examination
Laboratory Work Final Exam
Final Exam X 100 Other
Other
Weeks Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
-Solving Engineering Problems And Quantitate and Analysis -Numbers, Error and Error Sources -Degree of Accuracy in Numerical Calculations and Computer Accuracy -Numerical Solution Methods and applications of Non-Linear-Equations -Numerical Solution of Linear Equations Systems and Engineering applications -Taylor Series Expansions -Finite Difference and Finite-Difference Tables -Interpolation and Engineering Applications -Statistics and Regression Analysis, -Least Squares Method and Engineering Applications -Numerical Integration and Engineering Applications -Numerical Differentiation and İts applications -Initial Value Problems and İts applications -Partial Differential Equations and Boundary Value Problems
Instructor Assistant Prof. Dr. Gülşen Yaman
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title:
Transformat ion of Engineering Systems
Code : MKM 5216
Institute: Institute of Science and
Technology
Field: Mechanical Engineering
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study
Home
work Other Total
Credit
T+A+L=Credit ECTS
42 - - 64 44 54 204 3+0+0= 3 6
Semester Autumn Language Turkish
Course Type Basic
Scientific Scienti
fic Technical
Elective Social
Elective
Course
Objectives To give the basic principles to transformat ion of engineering systems.
Learning
Outcomes
and Competencies
Gain ing the skill of solving and learning transformation methods in engineering.
Textbooks
and /or References
1) Bayrakçı H. Ergun, “Lineer Sistemlerin Mühendislik Matemat iği”, Çağ layan Kitabevi, İstanbul,
1991.
2) Ogata K., “Modern Control Engineering”, Prentice-Hall Englewood Cliffs, 1990.
3) Yüksel İbrahim, “Sistem Dinamiği ve Denetim Sistemleri-Otomatik Kontrol”, U. Ü. Basımevi,
Bursa, 1995.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent
(%)
If any,
mark as (X)
Percent
(%)
Midterm Exams X 40 Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project
Reports, etc. Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Distribution functions in engineering systems.
Orthogonality and unity.
Unity functions.
Fourier series and integrals.
Fourier transforms.
Parseval Teorem.
Laplace transform and inverse, lap lace transforms.
Laplace transform applicat ions.
Continuous transforms in systems.
Angle and pulse width modulation.
Amplitude modulation.
Z transforms and applications.
First and final value teorems.
Sampling and quantation.
Instructor/s Yrd. Doç. Dr. Hayrettin YÜKSEL
e-mail [email protected]
Website w3.balikesir.edu.tr/~hyuksel/
GRADUATE COURSE DETAILS
Course Title:
Modelling of Engineering Systems
Code : MKM
5120
Institute: Institute of Science and
Technology
Field: Mechanical Engineering
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study
Home
work Other Total
Credit
T+A+L=Credit ECTS
42 - - 64 44 54 204 3+0+0= 3 6
Semester Autumn Language Turkish
Course Type Basic
Scientific Scienti
fic Technical
Elective Social
Elective
Course
Objectives To give modeling princip les of Engineering Systems .
Learning
Outcomes
and Competencies
Gain ing the skill of solving systems in engineering.
Textbooks and /or
References
1) Ercan YÜCEL, “Mühendislik Sistemlerinin Modellenmesi ve Dinamiği”, Gazi Ü., Ankara,
1992.
2) Ogata K., “System Dynamics”, Prentice -Hall Englewood Cliffs, 1992.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent
(%)
If any,
mark as (X)
Percent
(%)
Midterm Exams X 40 Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Mechanic system elements.
Translational and notational mechanic systems.
Elements of mechanic transform.
Vibrat ion of one and two degrees of freedom systems.
Vibrat ion of one and two degrees of freedom systems.
Electrical, fluid ic and thermal components.
Electrical, fluid ic and thermal components.
Vider look at dynamical components.
Calculation of mathemat ical models.
Generation of linear graphs.
Closed-chain elements graphs.
Modeling errors.
Hybride components.
Simpler calculat ion techniques of mathemat ical models.
Instructor/s Yrd. Doç. Dr. Hayrettin YÜKSEL
e-mail [email protected]
Website w3.balikesir.edu.tr/~hyuksel/
GRADUATE COURSE DETAILS
Course Title: Vehicle Body and Chasis
Design
Code : MKM
5108
Institute: Institute of Science and
Technology
Field: Mechanical Engineering
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study
Home
work Other Total
Credit
T+A+L=Credit ECTS
42 - - 64 44 54 204 3+0+0= 3 6
Semester Autumn Language Turkish
Course Type Basic
Scientific Scienti
fic Technical
Elective Social
Elective
Course
Objectives To give basic elements and calculations of Vehicle Design.
Learning
Outcomes
and Competencies
Gain ing the skill of projecting body and chassis in vehicles.
Textbooks
and /or
References
1) EREKE M., “Şasi ve Karoser Tasarımı”, İ. T. Ü. Otomotiv ABD, 1988.
2) Reimpell J., Stoll H., “The Automotive Chassis; Engineering Princip les”, London, 1996.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams X 40 Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project
Reports, etc. Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Vehicle Technology, Light Motor Vehicles; salon car, coupe, convertible, estate car, pick -up. Commercial vehicles and
dimensions.
Lorries, Rigid Trucks, classification of a rig id truck.
Chassis construction.
Chassis operating conditions.
Chassis-member sections.
Chassis side-and cross-member jo ints-and fastening.
Types of chassis having special characteristics.
Behaviour of chassis under dynamic loading, chassis progress.
Rigid Body Construction and spoilers.
Light frame and Resistant.
Rigid body bounce/pitch motions.
Body Aerodynamics Design.
Shape Optimization of Rear End and Front Face for a Road Vehicle.
Effect of flush glass mountaing and vehicle glasses.
Instructor/s Yrd. Doç. Dr. Hayrettin YÜKSEL
e-mail [email protected]
Website w3.balikesir.edu.tr/~hyuksel/
GRADUATE COURSE DETAILS
Course Title:
Advanced Calcu lating Methods Within
Vehicle Design
Code : MKM 5207
Institute: Institute of Science and Technology
Field: Mechanical Engineering
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study
Home
work Other Total
Credit
T+A+L=Credit ECTS
42 - - 64 44 54 204 3+0+0= 3 6
Semester Autumn Language Turkish
Course Type Basic
Scientific Scienti
fic Technical
Elective Social
Elective
Course Objectives
To give advanced calculating methods of Vehicle Design.
Learning
Outcomes
and
Competencies
Gain ing the skill of solving problems in vehicle design.
Textbooks
and /or
References
1) Mottram J. Toby & Shaw C. T., “Using Fin ite Elements in Mechanical Design”, McGraw-Hill
Book Comp., 1996.
2) Ereke Murat, “Şasi ve Karoseri Tasarımında İleri Hesap Yöntemleri”, İ. T. Ü. Otomotiv ABD,
1988.
3) Göktan Ali, “Taşıt Tasarımı”, İ. T. Ü. Matbaası, 1992.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent
(%)
If any,
mark as (X)
Percent
(%)
Midterm Exams X 40 Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project
Reports, etc. Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Main criterions in chassis design.
Forming suitable chassis.
Types of different chassis.
Solidity torsional.
Relationship between vehicle types and different chassis.
Carrying body without chassis on different vehicles.
Body of car and commercial vehicle.
Unit Force Method on a chassis frame and Automobile body.
Force method, izostatic and hiperstatic systems.
Carrying Matrix Method.
Bending of chassis in the horizontal plane, torsion of chassis, bending vibrations of chassis.
Displacement Method, Equations of displacement method, Automobile body.
Using Fin ite Elements in Mechanical Design for a vehicle.
Overview of the modern Fin ite Element Method.
Instructor/s Yrd. Doç. Dr. Hayrettin YÜKSEL
e-mail [email protected]
Website w3.balikesir.edu.tr/~hyuksel/
GRADUATE COURSE DETAILS
Course Title: Mechanics of Off-Road
Vehicles Code : MKM 5107
Institute: Institute of Science and Technology
Field: Mechanical Engineering
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study
Home
work Other Total
Credit
T+A+L=Credit ECTS
42 - - 64 44 54 204 3+0+0= 3 6
Semester Autumn Language Turkish
Course Type Basic
Scientific
Scienti
fic
Technical
Elective
Social
Elective
Course
Objectives To give basic elements and calculations of Off-Road vehicles.
Learning Outcomes
and
Competencies
Gain ing the skill of projecting main elements in mechanical engineering.
Textbooks
and /or
References
1) Harzad ın G., “Yol Dışı Araç Mekaniğ i”, D. E. Ü. Bornova, 1983.
2) Wong J. Y., “Theory of Ground Vehicles”, John Wiley and Sons, Inc., 1993.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent
(%)
If any,
mark as (X)
Percent
(%)
Midterm Exams X 40 Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Fundamentals of off–road vehicles dynamics.
Tractive Force, Effect of rolling resistance.
Soil reaction on wheel traction, Friction Rolling Moment on front wheel.
Cornering Properties of Wheel.
Geometry of a Turning Off-Road Vehicle.
Tractor three point hitches and mounted tools.
Side Draft and Stability.
Drawbar pull and power, Drawbar performance.
Mechanics of Vehicle Terrain, Interacting Terramechanics.
Distribution of Stresses in the Terrain under Vehicular Loads.
Stability of Tracked Vehicle, Pressure Distributions at a depth of the soil surface under tracked vehicles.
Tractive Effort and Slip o f a Track, Motion Resistance.
Drawbar Pu ll as Functions of Track Slip.
Gearbox Construction and Operation.
Instructor/s Yrd. Doç. Dr. Hayrettin YÜKSEL
e-mail [email protected]
Website w3.balikesir.edu.tr/~hyuksel/
GRADUATE COURSE DETAILS
Course Title:
Acoustic and Wave Mechanics Code :MKM 5135
Institute:Institute of Science and Technology
Field: Mechanical Engineering
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 70 92 204 3+0+0=3 6
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Introduction to acoustic and wave propagations.
Learning Outcomes and Competencies
LO1.Understanding the terminology of acoustics and basic wave mechanics.
LO2.Terminology of acoustic
LO3.Solutaion of acoustic problems
LO4.Solutaion of acoustic problems in engineering applications.
Textbooks and /or References
1.Bies, P.A.; Hansen, C.H., Engineering Noise Control. Unwin-Hyman.1988.
2.Kinsler, L.E.; Frey, A.R., Fundamentals of Acoustics.3rd., John&Wiley,1982.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams x 35 Midterm Exams
Quizzes Midterm Controls
Homework x 5 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam x 60 Other
Other x
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Terminology of acoustic
Characteristics of waves
Derivation of wave equation Solution of wave equation
Standing waves
Emission phenomena
Acoustic intensity and Reflection
Spherical acoustic waves Spherical Emission(Spherical Source)
Spherical Emission(Basic and Linear Source)
Intencity distribution
Emission from linear and superficial source
Case studies-1 Case studies-2
Instructor/s Ass.Prof.Dr.Hüray CAN
e-mail [email protected]
Website huraycan.baun.edu.tr
GRADUATE COURSE DETAILS
Course Title: Advanced Machinery Vibration Code : MKM 5234 Institute: Institute of Science and Technology Field: : Mechanical Engineering
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 70 92 204 3+0+0=3 6
Semester Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Determination of equations of motion and investigation of vibrations of multi -degree of freedom
systems.
Learning Outcomes and Competencies
LO1.Understanding of fundementals in the investigation of multi -degree of freedom system
vibration.
LO2. Solution of Equation of Motion and Vibration Modes; analytical Methods LO3.Solutaion vibration problems
LO4. Numerical Methods and Computational Analysis of Vibrations and Mode Shapes
Textbooks and /or References
1.Meirovitch,L.(1986). Elements of Vibrat ion Analysis.Singopure:McGraw Hill.
2. Inman,D.J.(2001).Engineering Vibraion.New Jersey:Prentice Hall.3.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams X 35 Midterm Exams
Quizzes Midterm Controls
Homework X 5 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other X
Week Subjects
1
2 3
4
5
6
7 8
9
10
11
12 13
14
Vibrations of Multi-Degree of Freedom Systems with and without Damping
Systems with viscous, Hysterestic and Coulomb Damping Determination of Equation of Motion with Newton Method
Lagrange Method, Energy Method and Generalized Coordinates
Influence Coefficients, Patantial and Kinetic Energy Exoressions in Matrix Form
Generalized Coordinates and Generalized Forces
Eigenvalue Problem and Response Solution of Equation of Motion and Vibration Modes; analytical Methods
Numerical Methods and Computational Analysis of Vibrations and Mode Shapes
Determination of Natural Frequencies and Modes Shapes
Holzer’s Method, Matrix Iteration Method, Jacobi’s Method
Orthogonality of Normal Modes, Expansion Theorem Unrestrained Systems
Predictive Maintenance and Some Case Studies from the Industry
Instructor/s Ass.Prof.Dr.Hüray CAN
e-mail [email protected]
Website huraycan.baun.edu.tr
GRADUATE COURSE DETAILS
Course Title: ADVANCED HVAC
Code : MKM5139
Institute: SCIENCE AND TECHNOLOGY
Field: MECHANICAL ENGINEERING
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 0 0 0 70 92 204 3+0+0=3 6
Semester Autumn/Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Understand the basic knowledge and technologies in building automation and management systems
Learning Outcomes and Competencies
Building management systems recognize and classify the components. Select devices and equipment that are required for a building management system
Textbooks and /or References
T.Merz, T. Hansemann, C. Hübner, Building Automation, Springer 2009. Barney L. Capehart, Lynne C. Capehart, Web Based Enterprise Energy and Building Automation Systems, 2007. Honeywell, Automatic Control for Engineering Manual of Commercial Buildings, 1997.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 30 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 70 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Control Fundamentals Electric Control Fundamentals Electronic Control Fundamentals Microprocessor-Based/DDC Fundamentals Building Management System Fundamentals Air Handling System Control Applications Building Airflow System Control Applications Chiller, Boiler, and Distribution System Control Applications Individual Room Control Applications The Difference Between Building Automation and Building Control The Structure of Building Automation and Control Networks Energy Management Functions Fire Control Strategies. Security and Lighting Control Strategies
Instructor/s Assoc. Prof. Dr. Hüseyin BULGURCU
e-mail [email protected]
Website http://w3.balikesir.edu.tr/~hbulgurcu
GRADUATE COURSE DETAILS
Course Title: ADVANCED HVAC
Code : MKM5237
Institute: SCIENCE AND TECHNOLOGY
Field: MECHANICAL ENGINEERING
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 0 0 0 70 92 204 3+0+0=3 6
Semester Autumn/Spring Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Understands advanced calculation methods used in HVAC field.
Learning Outcomes and Competencies
Classify and select air conditioning systems Discuss the working principle with suitable diagrams, advantages, disadvantages and applications of different types of all air systems, all water systems, air-water systems and unitary refrigerant based systems.
Textbooks and /or References
Krieder, JF - Handbook of Heating Ventilation and Air Conditioning [CRC Press 2001]. W. P. Jones, Air Conditioning Engineering, Elsevier Science & Technology Books , January 2001. Shan K. Wang, Handbook of Air Conditioning and Refrigeration, McGraw-Hill, 2001.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 30 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 70 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction Psychrometrics Heat and Moisture Transfer through Building Envelope Indoor and Outdoor Design Conditions Load Calculations Heating Systems, Furnaces, and Boilers Air Systems: Components—Fans, Coils, Filters, and Humidifiers Air Systems: Equipment—Air-Handling Units and Packaged Units Air Systems: Air Duct Design Air Systems: Space Air Diffusion Air Systems: Basics and Constant-Volume Systems Air Systems: Variable-Air-Volume Systems Air Systems: Minimum Ventilation and VAV System Controls Improving Indoor Air Quality
Instructor/s Assoc. Prof. Dr. Hüseyin BULGURCU
e-mail [email protected]
Website http://w3.balikesir.edu.tr/~hbulgurcu
GRADUATE COURSE DETAILS
Course Title: Computer Aided Engineering
Code: MKM5144 Institute : The Institute Of Science And Technology Field : Mechanical Engineering
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study Homework Other Total T+A+L=Credit ECTS
42 0 0 62 50 50 204 3+0+0=3 6
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Learning the Analysis software based on the Finite Element Method. Improving the modeling and meshing skill. Defining the material properties and element types.
Learning Outcomes and Competences
Successful engineering approach to real Engineering problems and solving them with analysis softwares.
Textbook and /or References
---
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes X 5 Midterm Controls
Homeworks X 10 Term Paper
Term Paper (Projects,reports,.)
X 20 Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other X 5
Week Course Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction General algoritm of F.E.M. Introduction to ANSYS Code Simple Modeling with 3D Modeling Editor Importing a CAD file from another Modeling Code Introduction to the Meshing Introduction to the beam, shell and solid element types. Modeling and solving a simple beam system Solving a piping model Solving a sytem cosist of sheet metal. Modeling and solving a solid model. Fundementals of thermal analisys with F.E.M Invetigating the heat element type 3D Thermal analysis.
Course Teacher Ass. Prof. Dr. İlker EREN
E-Mail [email protected]
Web Adresi
GRADUATE COURSE DETAILS
Course Title:
Advenced Engineering Analysis Code: MKM5239
Institute : The Institute Of Science And Technology Field : Mechanical Engineering
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study Homework Other Total T+A+L=Credit ECTS
42 0 0 62 50 50 204 3+0+0=3 6
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Working with Ansys/Ls-Dyna, CFX and other special softwares about Finite Element Method. Each student work with special simulation type related with their thesis subject.
Learning Outcomes and Competences
Successful engineering approach to real Engineering problems and solving them with analysis softwares.
Textbook and /or References
---
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes X 5 Midterm Controls
Homeworks X 10 Term Paper
Term Paper (Projects,reports,.)
X 20 Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other X 5
Week Course Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction 3D Finite Element Method Analysis An example to the Contact Algoritm An example to the Geometric Nonlineerity An example to the Material Nonlineerity An example to the Transiant Analysis An example to the Dynamic Analysis An example to the Vibration Analysis An example to the Explicit Analysis (Ls -Dyna) An example to the Analysis with ANSYS/Workbench An example to the Analysis with Unisotropic Materials An example to the Thermal Analysis An example to the Computational Flued Mechanics Analysis (ANSYS/CFX) Offering the individual projects.
Course Teacher Ass. Prof. Dr. İlker EREN
E-Mail [email protected]
Web Adresi
UNDERGRADUATE COURSE DETAILS
Course Title: MATERIALS SELECTION IN INDUSTRY
Code : MKM5208
Faculty or VS: INSTI. OF SCIEN.& TECHN. Programme: MECHANICAL ENGINEERING
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
48 23 20 62 153 3+0+0=3 6
Semester 1,2,3,4,5,6,7,8 Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
It is to educate to students known the path to be followed in the selection of the materials used in the construction of the machine.
Learning Outcomes and Competencies
L.O 1. Ability of understanding the difference between material selection with the classical method and material selection by Prof Ashby method. L.O 2. Ability of understanding what is in one view all of the properties of all materials, L.O 3. Ability of compare and interpreting of two material properties on Material cards, L.O4. Ability of making to the materials selection by using material indices in Prof Ashby method.
Textbooks and /or References
1. Prof.Dr.İrfan Ay- the selection of materials in Industry lecture notes – MMF Pubication ,Balıkesir , 2012
2. Prof.Dr.Fehim Fındık – Materials Selection and Applications – Sakarya, 2008.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams 35 Midterm Exams
Quizzes Midterm Controls
Homework 5 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam 60 Other
Other
Week Subjects
1 2
3 4 5 6 7 8 9 10 11
12 13 14
Information on the processing of Course The importance of the selection of materials Material selection-design relationship Classification of materials General factors to be taken into account in selecting materials, The importance of properties in the selection of material Material properties Material property cards Interpretation and representation in material card of the binary properties of materials Material Selection Strategy - classical method and the method of Prof. Ashby Examples of Prof. method Ashby-I-(9 samples) Examples of Prof. method Ashby-II-(6 samples) Formulas and Definitions Summarizing of all subjects
Instructor/s Prof.Dr.İrfan Ay
e-mail [email protected]
Website w3.balikesir.edu.tr/~ay/
UNDERGRADUATE COURSE DETAILS
Course Title: FAILURE ANALYSIS
Code :
MKM 5209
Faculty or VS: INSTI. OF SCIEN.& TECHN. Programme: MECHANICAL ENGINEERING
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
48 23 20 62 153 3+0+0=3 6
Semester 1,2,3,4,5,6,7,8 Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
to train students to be able to write a report at the result of analysis and make damage analysis of all kinds of materials,
Learning Outcomes and Competencies
LO.1 - student knows what is mechanisms of damage and damage report writing , LO.2- student knows the causes of damage as a result of wear and fracture, LO.3- student knows the causes of damage as a result of corrosion and creep LO.4- student knows the causes of damage as a result of Fatigue and Welding
Textbooks and /or References
1)- Prof.Dr.İrfan Ay- Failure Analysis Course Notes – 2012 2)- Prof. Dr. Hüseyin ÇİMENOĞLU - Prof. Dr. E. Sabri KAYALI - Prof. Dr. Niyazi ERUSLU - Prof. Dr. Mustafa ÜRGEN - Prof. Dr. Yılmaz TAPTIK - Failure Analysis Seminar Notes
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams 35 Midterm Exams
Quizzes Midterm Controls
Homework 5 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam 60 Other
Other
Week Subjects
1 2
3 4 5 6 7 8 9 10 11
12 13 14
Information on the processing of Course The importance of failure analysis Types of Failure Failures of Fatigue Failures of Fatigue Corrosion damage Corrosion damage Fracture damage Fracture damage Creep damage Creep damage Friction and wear damage Welding damage Welding damage
Instructor/s Prof.Dr.İrfan Ay
e-mail [email protected]
Website w3.balikesir.edu.tr/~ay/
UNDERGRADUATE COURSE DETAILS
Course Title: FRACTURE MECHANICS AND FATIGUE
Code : MKM5109
Faculty or VS: INSTI. OF SCIEN.& TECHN. Programme: MECHANICAL ENGINEERING
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
48 23 20 62 153 3+0+0=3 6
Semester 1,2,3,4,5,6,7,8 Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
to train to the students know the mechanisms of fracture and solve the fracture problems of materials.
Learning Outcomes and Competencies
L.O 1. Ability of understanding the difference between calculate of the fracture strength by the classical method and fracture mechanics method. L.O 2. Expressing the difference between the fracture toughness measurement methods (Kıc,CMOD,J-Integral) L.O 3. Ability of using to the Fracture mechanics to the Engineering problems L.O4. Ability of solving to the Fracture problems and analysing of them
Textbooks and /or References
1. Prof.Dr.İrfan Ay- Fracture Mechanics lecture notes – MMF Pubication ,Balıkesir , 2012 2. Prof.Dr.Agah Uğuz – Introduction to Fracture Mechanics , 3. Prof.Dr.Paşa Yayla –Fracture Mechanics
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams 35 Midterm Exams
Quizzes Midterm Controls
Homework 5 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam 60 Other
Other
Week Subjects
1 2
3 4 5 6 7 8 9 10 11
12 13 14
Information on the processing of Course Two different solution of a problem by Classical method and Fracture Mechanics method Failure mechanisms Material defects and their causes Stress-strain relationship Accumulation of stress - stress intensity approach
Virtuel work- compliance method- Imbalance R curve Crack tip zone plasticity Methods of fracture toughness (KIC - CTOD - J Integral) Fatigue and fatigue crack Description of Law in Paris Fatique problems Fracture Mechanics applications-I- Fracture Mechanics applications-II-
Instructor/s Prof.Dr.İrfan Ay
e-mail [email protected]
Website w3.balikesir.edu.tr/~ay/
GRADUATE COURSE DETAILS
Course Title: ADVANCED HEAT TRANSFER
Code : MKM5204
Institute: INSTITUTE OF SCİENCE Field: MECHANİCAL ENGİNEERİNG
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 - - - 60 102 204 3+0+0=3 6
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Derivations of Teoretical heat transfer equations
Learning Outcomes and Competencies
LO1.learn derivations tecniques of fourier’s heat transfer equation. LO2.learn derivations methods of conservation of mass and momentum. LO3.Heat transfer and fluid flow similarity. Lo4.Heat transfer equations and defines of theirs boundary conditions
Textbooks and /or References
Sadık KAKAÇ&Yaman YENER’ Heat Conduction’Taylor&Francis
Sadık KAKAÇ&Yaman YENER’ Heat Convection’,CRC
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams X 35 Midterm Exams
Quizzes Midterm Controls
Homework X 5 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction General laws, law of conservation of mass Newton’s second Law of motions,First law of Thermodynamics Second law of thermodynamics,Fourier’s law of Heat Conduction Newton’s law of cooling,Stefan-Boltzmann law of Radiation Governing equations of Convective heat transfer,continuity equations Momentum equations of Boundary layer, energy equations,boundary layer&Laminar flow Momentum equations and Energy equations of Boundary layer Fluid friction and heat transfer The integral method for momentum equation Equation of laminar forced flow over the flat plate layer. Problems Problems Problems
Instructor/s Asist.Prof.Dr.Kadir YAŞAR
e-mail [email protected]
Website www.balikesir.edu.tr
GRADUATE COURSE DETAILS
Course Title: ADVANCED FLUID MECHANIC
Code : MKM 5105
Institute: INSTITUTE OF SCİENCE Field: MECHANİCAL ENGİNEERİNG
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 - - 60 102 204 3+0+0=3 6
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Teoretical knowledge of flow equations definition
Learning Outcomes and Competencies
LO1.learn derivations tecniques of mass ,energy and momentum equations. LO2.learn derivations methods of total energy diferential equation LO3.importance of thermal field. Lo4.Boundary equations and defines of boundary layer thickness
Textbooks and /or References
A.J.RAUDKIVI & R,A.CALLANDER ‘ADVANCED FLUID MECHANICS and INTRODUCTION’
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams X 35 Midterm Exams
Quizzes Midterm Controls
Homework X 5 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction, Equation of Continuity, The Equations of Motion Vorticity Equations,persistence of Circulation,Irrotasyonal Flows Integration of the Euler equations Fundamental equations which govern fluid flow, Navier-Stokes equation and its derivations Navier-Stokes equation and its derivations Laplace Equation,three dimensional sources Boundary layer concept and laminar boundary layer equations Taylor teorem,Forces and moments,ıntegral equations. Two dimensional ırrotasyonal flows,Blasius teorems Problems problems
Instructor/s Asist.Prof.Dr.Kadir YAŞAR
e-mail [email protected]
Website www.balikesir.edu.tr
GRADUATE COURSE DETAILS
Course Title:
ELASTICITY THEORY Code : MKM5103
Institute:FBE Field: MECHANİCAL ENGİNEERING
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 70 92 204 3 6
Semester Autumn/Spring Language Turkish/English
Course Type
Basic
Scientific Scientific
Technical
Elective
Social
Elective
Course
Objectives To give information abut elastici ty theories
Learning Outcomes
and Competencies
To be comprehence elastic properties of the materials in two and three dimensional medium
Textbooks and /or References
THIMOSHENKO, S., GOODIER, J., N., “Theory of Elastici ty”, Mc-Graw Hill Company.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent
(%)
If any,
mark as (X)
Percent
(%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports , etc.
Oral Examination
Laboratory Work Final Exam
Final Exam Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9
10 11 12 13 14
Introduction Two dimensional stress and strain analysis Two dimensional stress and strain analysis 2D problems at Cartesian co-ordinates 2D problems at Cartesian co-ordinates 2D problems at polar co-ordinates 2D problems at polar co-ordinates Deformation energy method Deformation energy method 3D stress and strain analysis 3D stress and strain analysis Elementary problems at 3D elasticity Elementary problems at 3D elasticity Thermal stress analysis
Instructor/s Yrd. Doç. Dr. Mehmet İREN
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title:
FINITE ELEMENT METHOD
Code : MKM5211
Institute:FBE Field: MECHANICAL ENGINEERING
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 70 92 204 3 6
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To give the theories of Finite Element Method
Learning Outcomes and
Competencies
To comprehence fini te element method concept
Textbooks and /or References
Zienkiewicz, O.,C.,” The Finite Element Method for Solid and Structural Mechanics” ELSEVİER
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports , etc.
Oral Examination
Laboratory Work Final Exam
Final Exam Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9
10 11 12 13 14
Introduction Necessity of approximate solution Numerical approximation Nature, advantage and disadvantage of FEM Application field of FEM Problem types of FEM Introduction of FEM approximation Element types of FEM Interpolation functions Obtaining of element equations Solution of system equation Solution of elasticity equation in 2D space Solution of Laplace’s equation in 2D space Preparation of related computer programme
Instructor/s Yrd. Doç. Dr. Mehmet İREN
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title:
INTRODUCTION TO THE OPTIMUM DESIGN
Code : MKM5212
Institute:FBE Field: MECHANİCAL ENGINEERING
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 70 92 204 3 6
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
TO give the design concept and optimisation
Learning Outcomes and
Competencies
To comprehence optimum design concept concept
Textbooks and /or References
Stoecker, W., F., “Dizayn of Thermal Systems”, Mc-Graw Hill
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports , etc.
Oral Examination
Laboratory Work Final Exam
Final Exam Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9
10 11 12 13 14
Introduction Problem formulation at IOD Optimisation of two rod system Variables of design Cost function, design depends Examples of problem formulation at optimum design A general mathematical model for optimum design Graphical optimisation, concept of optimum design Methods of linear programming of OD Numerical methods of independent OD Numerical methods of dependent OD Interactively design optimisation Practical design optimisation Economically analysis.
Instructor/s Yrd. Doç. Dr. Mehmet İREN
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title:
VARIATIONAL CALCUL US IN ENGINNERING
Code : MKM5111
Institute:FBE Field: MECHANİCAL ENGINEERING
Education and Teaching Methods Credits
Lecture Application Lab. Project/ Field Study
Homework Other Total Credit T+A+L=Credit
ECTS
42 70 92 204 3 6
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To give the information about the application of the variational calculus
Learning Outcomes and
Competencies
To solve the problems of mechanics by the principles of of the variational calculus
Textbooks and /or References
Stoecker, W., F., “Dizayn of Thermal Systems”, Mc-Graw Hill
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports , etc.
Oral Examination
Laboratory Work Final Exam
Final Exam Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9
10 11 12 13 14
Maximum and minimum
Natural and transition boundary condition
Variational notation
General state, dependence and Lagrange’s multiplies
Variable end points, Sturm-Liouville’s problem
Hamiltonian principle
Lagrange’s equation
Generalised dynamic problems
Dependencies at dynamic systems
Little vibrations about equilibrium
Natural coordinates
Variational problems of elasticity
Variational problems of elastic plate
Rayleigh-Ritz’s method
Instructor/s Yrd. Doç. Dr. Mehmet İREN
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title:
APPLIED MATHEMATICS IN MECHANICAL ENGINEERING
Code :
MKM5143
Institute:FBE
Field: MECHANİCAL ENGINEERING
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 70 92 204 3 6
Semester Autumn/Spring Language Turkish/English
Course Type
Basic
Scientific Scientific
Technical
Elective
Social
Elective
Course
Objectives Applications of the mathematical methods in mechanical engineering field
Learning Outcomes
and Competencies
Setting up the mathematical model for solving problems at real life
Textbooks and /or References
Erwin Kreyszig, “Advanced Engineering Mathematics” Jhon Wiley and Sons , Inc. Stanley I. Grossman, William R. Derrick, “Advanced Engineering Mathematics”, HarperCollins, Inc
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent
(%)
If any,
mark as (X)
Percent
(%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports , etc.
Oral Examination
Laboratory Work Final Exam
Final Exam Other
Other
Week Subjects
1 2 3
4 5 6
7 8 9
10 11 12 13
14
Ordinary Differential Equations. (ODEs), First-Order ODEs, Second-Order Linear ODEs Higher Order Linear ODEs, Systems of ODEs. Phase Plane. Qualitative Methods
Series Solutions of ODEs. Special Functions, Laplace Transforms Matrices, Vectors, Determinants. Linear Systems, Ma tr ix Eigenvalue Problems,
Vector Differential Calculus. Grad, Div, Curl, Vector Integral Calculus. Integral Theorems Fourier Series and Par tial Differential Equations (PDEs),
Integrals, and Transforms, Par tia l Differential Equations Complex Numbers and Functions, Complex Integration, Power Series, Taylor Series, Conform a I Mapping, Complex Analysis and Potentia l Theory Numeric Analysis, Numeric L inear Algebra, Numerical Analysis for ODEs and PDEs
Data Analysis. Probability Theory, Mathematical Statistics,
Instructor/s Yrd. Doç. Dr. Mehmet İREN
e-mail [email protected]
Website
GRADUATE CURRICULUM DETAILS
Course Title:
ENERGY MANAGEMENT IN
INDUSTRY
Code :
MKM5227
Name of the Programme:
MECHANICAL ENGINEERING
Education and Teaching Methods Credits
Lecture Application Laboratuary Project/
Field Study
Hw. Other Total Credit= T+A+L
ECTS
42 0 0 0 70 92 204 3 6
Semester Spring Language Turkish
Course Type
Basic Scientific
Scientific
Technical Elective
Social Elective
Course Contents
Energy efficiency, Economic analysis methods, waste heat regain
Learning Outcomes and Competences
LO1. To understand and solve the energy systems LO2. Creating Balance equations of equilibrium LO3. Energy conservation and efficiency to solve the issue of
LO4. Perform economic analysis of energy use
Textbook and /or References
www.eie.gov.tr Energy management in industrial sector, eie publications, (4 volume) and other publications on energy management
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams X 40 Midterm Exams
Quizzes - - Midterm Controls
Homeworks X - Term Paper
Term Paper (Projects,reports, ….)
X - Oral Examination
Laboratory Work - Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction to lesson, Basic information Energy economy methods. Measuring devices and measuring techniques. Burning systems Increasing the energy efficiency in boilers Steam based systems. Insulation techniques and furnaces Electrical systems and energy saving in lighting Compressed air. Drying processes Energy recovering systems. Electrical analysis methods Fossil and alternative energy resources Co-generation power systems.
Instructors Assoc.Prof. Dr. Nadir İLTEN
e-mail [email protected],
GRADUATE CURRICULUM DETAILS
Course Title: Burning Technologies
Code : MKM 5115
Institute: SCIENCE Field : MECHANICAL ENGINEERING
Education and Teaching Methods Credits Lecture Application Laboratuary Project/
Field Study Hw. Other Total Credit
T+A+L=Credit ECTS
42 0 0 0 80 82 204 3+0+0=3 6
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
The learn of burn and combustion systems
Learning Outcomes and Competences
LO1. Compare the properties of fuels
LO2. Create combustion reactions
LO3. To establish the relationship between the combustion energy
LO4. Make the choice according to the fuel used in combustion systems
Textbook and /or References
Çengel, Y. “Mühendislik Yaklaşımıyla Termodinamik, McGraw-Hill, Çev. Taner Derbentli, 1996. Kenneth, K “Principles of Combustion”, John Wiley,Sons, 1986
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams x 40 Midterm Exams
Quizzes x Midterm Controls
Homeworks X Term Paper
Term Paper (Projects,reports, ….)
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction, Combustion information, Fuels, Burning reactions, Coal burning technologys, Grill burning systems, Pulverize coal burning systems, Fluidized bed combustion systems, Liquid fuel burning technologys, Fuel oil burning systems, Consumption engines, Gas fuel burning technologys, Natural gas burning tecnologys, Condensation burning systems.
Instructors Assistant Prof.Dr. Nadir İLTEN
e-mail [email protected]
Website
GRADUATE COURSE DETAILS
Course Title: Solidification Kinetic and Microstructure
Code : MKM 5226
Institute:Science Institute Field: Mechanical Engineering
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 - 20 - 80 62 204 3+0+0=3 6
Semester Autumn Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
Students with internal structural characteristics of materials change shape to give the necessary information to interpret the relationship between behavior, taking advantage of the data in the literature to students of materials fatigue and fracture behavior to identify and acquire the ability to use these designs,
Learning Outcomes and Competencies
LO1.Know mechanisms of nucleation and solidification of pure materials and alloys . LO2. Understand crystal structures and the effects of crystal defects on material properties. LO3. Understand the diffusion concept and laws and its effects on material properties. LO4. Acquire advanced theoretical knowledge about the mechanical behaviour of materials. LO5. Gain the ability to look into the problem and to give an engineering analysis.
Textbooks and /or References
W. F. Simith, Translation: N. Kınıkoğlu, Malzeme Bilimi ve Mühendisliği, 2001; W.D. Callister, Translation Editor: K. Genel, Malzeme Bilimi ve Mühendisliği, 2013 D.R. Askeland, Translation: M. Erdoğan, Malzeme Bilimi ve Mühendislik Malzemeleri I – II, 2002 Solidification Kinetic and Microstructure, Lecture notes, Sare Çelik
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work x Final Exam
Final Exam X 60 Other
Other x
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Pure metals Phase transformation Transformation mechanism Crystallisation Nucleation Diffusion and segregation TTT transformation diagrams CCT transformation diagrams Mechanical behavior of materials Mechanism of plastic deformation Hot working Cold working Definitions of heat treatments Wear and problems
Instructor/s Assoc. Prof. Dr. Sare ÇELİK
e-mail [email protected]
Website http://mmf.balikesir.edu.tr
GRADUATE COURSE DETAILS
Course Title: Special Welding Methods Code : MKM 5213
Institute:Science Institute Field: Mechanical Engineering
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 - 20 - 82 60 204 3+0+0=3 6
Semester Spring Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
Providing the special welding methods in detail and conveying the contemporary information about these methods and equipment used in these methods to the students.
Learning Outcomes and Competencies
LO1. Understand the current and special welding methods . LO2. Make suitable welding methods selection for manufacturing LO3. Evaluate special welding methods applied in industry LO4. Know the advantages and disadvantages of welding technics among each other LO5. Know the characteristics of welding technics.
Textbooks and /or References
American Welding Society (www.aws.org); E. Kaluç, Kaynak Tekniği I-II, Makine Mühendisleri Odası, 2004 Gourd, L.,M., Principles of Welding Technology, Edward Arnold Publisher; 3.Edition, 1995
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work x Final Exam
Final Exam X 60 Other
Other x
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction Developments in welding methods Fusion and pressure welding methods Solid state welding methods Diffusion welding Friction welding Friction stir welding Electron beam welding Laser welding Explosion welding Plasma arc welding Electroslag welding Narrow gap welding Thermit welding
Instructor/s Assoc. Prof. Dr. Sare ÇELİK
e-mail [email protected]
Website http://mmf.balikesir.edu.tr
GRADUATE COURSE DETAILS
Course Title: Non Destructive Testing
Code : MKM 5127
Institute:Science Institute Field: Mechanical Engineering
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 - - - 90 72 204 3+0+0=3 6
Semester Autumn Language Turkish
Course Type
Basic Scientific
Scientific Technical Elective
Social Elective
Course Objectives
To give selectable of non-destructive testing methods in depending on materials and construction
Learning Outcomes and Competencies
LO1. Understand about the non-destructive testing methods used in industry LO2. Select non-destructive testing method to be used to control the work piece. LO3. Determine adaptation of the manufacturing process and the non-destructive testing method in design phase. LO4. Know the equipment used in non-destructive testing method. LO5. Evaluate the data of taking in non-destructive testing method
Textbooks and /or References
The American Society for Nondestructive Testing (www.ndt.net), A. Topuz, Tahribatsız Muayeneler, İstanbul 1993 Non Destructive Testing, Lecture notes, Sare Çelik
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework X 40 Term Paper
Term Paper, Project Reports, etc.
Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other x
Week Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Introduction Principles of non destructive testing (NDT) Visual inspection, magnetic particle inspection Eddy current inspection Liquid penetrant inspection Ultrasonic inspection Radiographic inspection Micro control with surface copy Optic Holography Acoustic emission process Thermography process 3D Micro Tomography A range of non destructive methods is available for the inspection of materials Advantages and disadvantages of NDT
Instructor/s Assoc. Prof. Dr. Sare ÇELİK
e-mail [email protected]
Website http://mmf.balikesir.edu.tr
GRADUATE COURSE DETAILS
Course Title: RAPID PROTOTYPING TECHNOLOGIES
Code : MKM5140
Institute : Science and Technology Field : Mechanical Engineering
Education and Teaching Methods Credits Lecture Application Lab. Project/
Field Study Homework Other Total Credit
T+A+L=Credit ECTS
42 70 92 204 3+0+0=3 6
Semester Autumn/Spring Language Turkish/English
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
To teach rapid prototyping technics and model preparation principles for 3D printers.
Learning Outcomes and Competencies
Students will have the knowledge about rapid prototyping techniques and create 3D models and prepare Gcode for them and they manufacture the sample models with an existing 3D printer.
Textbooks and /or References
1. Chua, C.K., Leong, K.F., Rapid Prototyping: Principles and Applications in Manufacturing, John Wiley and Sons Inc., 2000.
2. Pham, D.T., Demov, S.S., Rapid Manufacturing: The Technologies and Applications of Rapid Prototyping and Rapid Tooling, Springer-Verlag London Limited, 2001.
3. Hopkinson, N., Hague, R.J.M. and Dickens, P.M., Rapid Manufacturing and Industrial Revolution for the Digital Age, John Wiley and Sons Ltd, Chichester, 2005.
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X) Percent
(%)
If any, mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes Midterm Controls
Homework Term Paper
Term Paper, Project Reports, etc.
X 30 Oral Examination
Laboratory Work Final Exam
Final Exam X 70 Other
Other
Week Subjects
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Introduction: What is rapid prototyping?
3D-modelling for Rapid Prototyping (geometry issues)
How do I get my 3D CAD model to a rapid prototyping process?
What is an STL?
Mesh models and precision
Exporting from different software packages
Getting the .STL correctly into the RP machine software
Presentation of different RP-procedures
Stereolithography (SLA)
Laminated Object Manufacturing (LOM)
Selective Laser Sintering (SLS) / Three Dimensional Printing (3DP)
Fused Deposition Modeling (FDM)
Thermal Phase Change Inkjets / Photopolymer Phase Change Inkjets (PolyJet)
3d Printer Applications (3D print out of sample project implementations)
Instructor/s Assist. Prof. Dr. Yılmaz GÜR
e-mail [email protected]
Website http://mmf.balikesir.edu.tr
GRADUATE COURSE DETAILS
Course Title: High S peed Cutting Technology
Lecture
42
Application
0
Semester
Course Type
Course
Objectives
Learning Outcomes and Competencies
Textbooks and /or References
Basic
Scientific
Code : MKM-5221 Institute: FBE Field:Mechanical Eng.
Total
204
Credits Credit ECTS T+A+L=Credit
3+0+0 6
Turkish
Social
Elective
Education and Teaching Methods Lab. Project/ Homework
Field Study
0 0 70
Spring
Scientific
Language
Technical
Elective
Other
92
To understand HSC technology fundamentals
One knows how to use advantages of HSC technology
Herbert Schulz; Hochgeschwindigkeitsfraesen von metallischer und nicht metallicher Werkstoffen.
.
ASSESSMENT CRITERIA
Theoretical Courses
If any,
mark as (X)
Percent
(%)
40 Midterm Exams
Midterm Controls
- Term Paper
Oral Examination
Final Exam
x
60
-
Other
Project Course and Graduation Study
If any,
mark as (X)
Percent
(%)
Midterm Exams
Quizzes
Homework
Term Paper, Project Reports, etc.
Laboratory Work
Final Exam
Other
Week
1 2 3 4
5 6 7 8 9
10 11 12 13 14
Instructor/s
Website
x
Subjects
Introduction, Cutting Technology Fundamentals , HSC of Steel
HSC of Copper HSC of light Metal
HSC Tools HSC Machines
Spindel Systems
HSC in Occupational Health and Safety
HSC Control Systems
HSC in Dry Cutting
HSC in Die and Mold HSC in Die and Mold
HSC in Hard Steel Cutting
CAD/CAM System in HSC
Assoc. Prof. Dr. Ziya AKSOY
http://w3.balikesir.edu.tr/~zaksoy
GRADUATE COURSE DETAILS
Course Title: Scientific Research Techniques and Research/Publication Ethics
Code: MKM5145 Institute : The Institute Of Science And Technology Field : Mechanical Engineering
Education and Teaching Methods Credits
Lecture Application Lab. Project/
Field Study Homework Other Total T+A+L=Credit ECTS
42 0 0 62 50 50 204 3+0+0=3 6
Semester Autumn Language Turkish
Course Type
Basic Scientific Scientific
Technical Elective
Social Elective
Course Objectives
Research and development is an important train the labor force in the preparation of the project will be presented to organizations that support R & D projects today.
Learning Outcomes and Competences
University and to work in the industry and information and cultivating equipment with the capacity to prepare those elements of R & D projects.
Textbook and /or References
---
ASSESSMENT CRITERIA
Theoretical Courses Project Course and Graduation Study
If any,
mark as (X)
Percent (%)
If any,
mark as (X)
Percent (%)
Midterm Exams Midterm Exams
Quizzes X 5 Midterm Controls
Homeworks X 10 Term Paper
Term Paper (Projects,reports,.)
X 20 Oral Examination
Laboratory Work Final Exam
Final Exam X 60 Other
Other X 5
Week Course Subjects
1 2 3 4 5 6 7 8 9 10 11 12 13 14
R & D What is it ? What is the purpose? Parameters to be taken into account in determining the R & D topics Importance of R & D Business, World Examples of R & D Organizations supporting R & D Projects in Turkey And team-building capabilities in R & D employees to search Identification of priority areas, points to be considered in the writing of project inputs and purpose section Industrial R & D content of the project Innovative Technology Level and Direction Project Preparation Process R & D, R & D for the literature and evaluation Eligibility for the project of writing the Project Plan and Organisation Infrastructure R & D Project Preparation Process; Creation of working in the R & D project costs Economic Benefits and the National to recovery interchangeability of Project Outputs R & D Failure Causes Publication Ethics
Course Teacher Prof. Dr. Bedri YÜKSEL
E-Mail [email protected]
Web Adresi