GAZI UNIVERSITY INFORMATION PACKAGE - 2019 ACADEMIC YEAR

COURSE DESCRIPTION
COMPUTER AIDED MELT FLOW ANALYSIS/İMM -410
Course Title: COMPUTER AIDED MELT FLOW ANALYSIS
Credits 3 ECTS 3
Semester 8 Compulsory/Elective Elective
COURSE INFO
 -- LANGUAGE OF INSTRUCTION
  Turkish
 -- NAME OF LECTURER(S)
  Assoc. Prof. Dr. Abdulmecit Güldaş
 -- WEB SITE(S) OF LECTURER(S)
  http://www.websitem.gazi.edu.tr/site/aguldas
 -- EMAIL(S) OF LECTURER(S)
  aguldas@gazi.edu.tr
 -- LEARNING OUTCOMES OF THE COURSE UNIT
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 -- MODE OF DELIVERY
  The mode of delivery of this course is Face to face
 -- PREREQUISITES AND CO-REQUISITES
  There is no prerequisite or co-requisite for this course.
 -- RECOMMENDED OPTIONAL PROGRAMME COMPONENTS
  Polymer Rheology
 --COURSE CONTENT
1. Week  Manufacturing technology of an industrial product and determination of material properties for flow analysis
2. Week  Non-Newtonian fluids and flows, viscoelastic flows
3. Week  Viscosity models, Relation of pressure-Volume-Temperature (PVT)
4. Week  Government equations and flow parameters
5. Week  Solution for non liner differential equation by computer
6. Week  flow simulation by current release programme
7. Week  Transfer of design product from CAD environment to analysis environment, material selection and determination of parameters
8. Week  Mid term exam
9. Week  filling type, flow direction
10. Week  Determination of filling time and cycle time
11. Week  Effect of flow parameters such as pressure, temperature, viscosity, and density on melt flow
12. Week  Effect of runner, section of runner, gate type, and number of gate on filling type and filling time
13. Week  Effects of cavity filling type and pattern on plastic product and air trap
14. Week  Determination of temperature, pressure, velocity distribution and confidence of fill
15. Week  
16. Week  
 -- RECOMMENDED OR REQUIRED READING
  1. Kennedy, P., 1995, Flow Analysis of Injection Molding, Hanser/Gardner Publications, Cincinnati, USA 2. Carreau, P.J., Kee, D.C.R.D., Chabra, R.P., 1997, Rheology of Polymeric System, Hanser/Gardner Publications Inc., Cincinati, USA. 3. Crochet, M.J., Davides, A.R., Walters, K., 1991, Numerical Simulation of Non-Newtonian Flow 3. Ed., Elsevier Rheology Series 1, Amsterdam, Netherlands 4. Welty, J.R., Wicks, C. E., Wilson, R.E., 1984, Fundamentals of Momentum, Heat, and Mass Transfer 3.Ed., John Wiley & Sons Inc., USA 5. Moldflow User Guide, 2002, Moldflow Paggage 8. Rosato, D. V., Rosato, D. V., 1999, Injection Molding Handbook 2nd ed., Kluwer Academic Publishers, Boston/London
 -- PLANNED LEARNING ACTIVITIES AND TEACHING METHODS
  Lecture, Question & Answer, Demonstration, Drill - Practise
 -- WORK PLACEMENT(S)
  Not Applicable
 -- ASSESSMENT METHODS AND CRITERIA
 
Quantity
Percentage
 Mid-terms
1
15
 Assignment
1
10
 Exercises
5
20
 Projects
1
5
 Practice
0
0
 Quiz
0
0
 Contribution of In-term Studies to Overall Grade  
50
 Contribution of Final Examination to Overall Grade  
50
 -- WORKLOAD
 Efficiency  Total Week Count  Weekly Duration (in hour)  Total Workload in Semester
 Theoretical Study Hours of Course Per Week
14
3
42
 Practising Hours of Course Per Week
14
1
14
 Reading
0
0
0
 Searching in Internet and Library
2
3
6
 Designing and Applying Materials
4
3
12
 Preparing Reports
1
1
1
 Preparing Presentation
0
0
0
 Presentation
0
0
0
 Mid-Term and Studying for Mid-Term
1
3
3
 Final and Studying for Final
1
3
3
 Other
0
0
0
 TOTAL WORKLOAD: 
81
 TOTAL WORKLOAD / 25: 
3.24
 ECTS: 
3
 -- COURSE'S CONTRIBUTION TO PROGRAM
NO
 PROGRAM LEARNING OUTCOMES
1
2
3
4
5
1The ability of choosing and design manufacturing systems by using contemprary methods, tools and TechnologiesX
2To be able to conduct both qualitative and quantitative scientific research methods and techniques in their major areaX
3The ability of using modern engineering methods such as computer software and contemporary methods to acquire knowledge in engineering design and analysisX
4The ability of leadership and working with multi-disciplinary projectsX
5The ability to design and conduct experiments as well as to analyze and interpret data of experimentsX
6The ability to select, develop and/or design a system, component, or process to meet desired performance, manufacturing capabilities and economic requirementsX
7Understanding of professional and ethical responsibilityX
8The communication skill of oral and written Turkish and EnglishX
9The ability of identifying, presenting, formulating, and solving manufacturing engineering problemsX
10The ability of design, execution, to analyze and evaluate of manufacturing systemsX
11The ability to apply the basic and the principles of engineering sciences for solving manufacturing problemsX
12The ability to understand and comment on the impact of manufacturing engineering solutions in a national and global contextX