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Syllabus ( ME 636 )


   Basic information
Course title: Sustainable Machining
Course code: ME 636
Lecturer: Assoc. Prof. Dr. Emel KURAM
ECTS credits: 7.5
GTU credits: 3 (3+0+0)
Year, Semester: 1/2, Fall and Spring
Level of course: Third Cycle (Doctoral)
Type of course: Area Elective
Language of instruction: Turkish
Mode of delivery: Face to face
Pre- and co-requisites: None
Professional practice: No
Purpose of the course: To examine in detail the methods used in sustainable machining.
   Learning outcomes Up

Upon successful completion of this course, students will be able to:

  1. Learn the concept of sustainability.

    Contribution to Program Outcomes

    1. Define and manipulate advanced concepts of Mechanical Engineering in a specialized way
    2. Review the literature critically pertaining to his/her research projects, and connect the earlier literature to his/her own results,
    3. Develop an awareness of continuous learning in relation with modern technology
    4. Effectively express his/her research ideas and findings both orally and in writing
    5. Be aware of issues relating to the rights of other researchers and of research subjects e.g. confidentiality, attribution, copyright, ethics, malpractice, ownership of data

    Method of assessment

    1. Written exam
  2. Learn sustainable machining methods.

    Contribution to Program Outcomes

    1. Define and manipulate advanced concepts of Mechanical Engineering in a specialized way
    2. Review the literature critically pertaining to his/her research projects, and connect the earlier literature to his/her own results,
    3. Effectively express his/her research ideas and findings both orally and in writing
    4. Apply knowledge in a specialized area of mechanical engineering discipline and use variety of CAD/CAM/CAE tools.
    5. Be aware of issues relating to the rights of other researchers and of research subjects e.g. confidentiality, attribution, copyright, ethics, malpractice, ownership of data

    Method of assessment

    1. Written exam
    2. Seminar/presentation
    3. Term paper
  3. Learn the application areas of sustainable machining methods.

    Contribution to Program Outcomes

    1. Define and manipulate advanced concepts of Mechanical Engineering in a specialized way
    2. Review the literature critically pertaining to his/her research projects, and connect the earlier literature to his/her own results,
    3. Effectively express his/her research ideas and findings both orally and in writing
    4. Apply knowledge in a specialized area of mechanical engineering discipline and use variety of CAD/CAM/CAE tools.
    5. Be aware of issues relating to the rights of other researchers and of research subjects e.g. confidentiality, attribution, copyright, ethics, malpractice, ownership of data

    Method of assessment

    1. Written exam
    2. Seminar/presentation
    3. Term paper
   Contents Up
Week 1: Sustainability Concept
Week 2: Dry Machining (Drilling and Turning)
Week 3: Dry Machining (Milling)
Week 4: Machining Using Minimum Quantity Lubrication Method (Drilling and Turning)
Week 5: Machining Using Minimum Quantity Lubrication Method (Milling)
Week 6: Machining Using Vegetable Based Cutting Fluids (Drilling)
Week 7: Machining Using Vegetable Based Cutting Fluids (Turning)
Week 8: Machining Using Vegetable Based Cutting Fluids (Milling), Mid-Term Exam
Week 9: Machining Using Cryogenic Cooling (Drilling)
Week 10: Machining Using Cryogenic Cooling (Turning)
Week 11: Machining Using Cryogenic Cooling (Milling)
Week 12: Hybrid Methods Used in Drilling
Week 13: Hybrid Methods Used in Turning
Week 14: Hybrid Methods Used in Milling, Project
Week 15*: -
Week 16*: Final Exam
Textbooks and materials: 1. J.P. Davim, Sustainable Machining, 2017
Recommended readings: 1. J.P. Davim, Sustainable Manufacturing, 2010
2. J.P. Davim, Green Manufacturing Processes and Systems, 2013
3. M. Singh, T. Ohji, R. Asthana, Green and Sustainable Manufacturing of Advanced Materials, 2016
  * Between 15th and 16th weeks is there a free week for students to prepare for final exam.
Assessment Up
Method of assessment Week number Weight (%)
Mid-terms: 8 30
Other in-term studies: 0
Project: 14 20
Homework: 0
Quiz: 0
Final exam: 16 50
  Total weight:
(%)
   Workload Up
Activity Duration (Hours per week) Total number of weeks Total hours in term
Courses (Face-to-face teaching): 3 14
Own studies outside class: 5 14
Practice, Recitation: 0 0
Homework: 0 0
Term project: 50 1
Term project presentation: 0 0
Quiz: 0 0
Own study for mid-term exam: 8 1
Mid-term: 1 1
Personal studies for final exam: 12 1
Final exam: 1 1
    Total workload:
    Total ECTS credits:
*
  * ECTS credit is calculated by dividing total workload by 25.
(1 ECTS = 25 work hours)
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