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Week
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Topics
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Study Metarials
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1
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An overview of the concept of stress, Stress-strain relations
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R1- Chapter 1
R2- Chapter 1
R4- Chapter 1
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2
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Plane stress and plane strain, Stress transformations
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R1- Chapter 2
R2- Chapter 2
R3- Chapter 5
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3
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Fracture and yield theories
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R1- Chapter 4
R2- Chapter 5
R3- Chapter 7
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4
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Strain energy
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R1- Chapter 5
R2- Chapter 6
R3- Chapter 10
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5
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Stress theories, Strain theories
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R1- Chapter 5
R2-Chapter 6
R4- Chapter 1
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6
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Torsion in non-circular members, Torsion of closed tubes
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R2- Chapter 4
R3- Chapter 3
R4- Chapter 5
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7
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Eccentric loading in the plane of symmetry, Unsymmetrical bending
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R2- Chapter 3
R3- Chapter 4
R4- Chapter 4
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8
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General state of eccentric loading, Bars with curved axis
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R2- Chapter 3
R3- Chapter 4
R4- Chapter 4
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9
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Thin-walled vessels
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R1- Chapter 8
R3- Chapter 9
R4- Chapter 8
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10
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Strain transformations, Deformation rosettes
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R1- Chapter 6
R3- Chapter 5
R4- Chapter 6
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11
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Stresses under combined loads
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R1- Chapter 3
R3- Chapter 4
R4- Chapter 3
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12
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Energy methods, strain energy for normal and shear stress
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R2- Chapter 8
R3- Chapter 10
R4- Chapter 7
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13
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Castigliano`s theorem
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R2- Chapter 6
R3- Chapter 10
R4- Chapter 9
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14
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Elasto-dynamic loadings
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R1- Chapter 8
R2- Chapter 8
R3- Chapter 9
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Prerequisites
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-
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Language of Instruction
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Turkish
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Responsible
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Asst. Prof. Dr. Sakine KIRATLI
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Instructors
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-
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Assistants
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-
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Resources
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R1- Boresi, A.P. & Schmidt, R.J. (2002). Advanced mechanics of materials. John Wiley & Sons, USA.
R2- Cook, R.D. & Young, W.C. (1999). Advanced mechanics of materials. Prentice-Hall, USA.
R3- Beer, F.P. & Johnston, E.R. (2003). Strength of materials. Beta Yayınları, İstanbul.
R4- Budynas, R.G. (1999). Advanced strength and applied stress analysis. McGrawHill, USA.
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Supplementary Book
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-
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Goals
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To give stress-strain relations and to examine non-symmetrical bending, torsion in non-circular elements, strain transformations, energy methods.
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Content
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Stress concept, Stress-strain relations, Stress transformations, Stress-strain theories, Torsion in non-circular elements, Unsymmetrical bending, Thin-walled vessels, Strain transformations, Stresses under combined loads, Energy methods, Elasto-dynamic loadings.
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Program Learning Outcomes |
Level of Contribution |
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1
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Acquires information by carrying out scientific research in the field of Mechanical Engineering, evaluates the findings and makes comments
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3
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2
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Complements the restricted or incomplete information and applies it, unifies the multidisciplinary information
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-
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3
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Designs and implements a system meeting the requirements in the field of Mechanical Engineering
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4
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4
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Makes an interpretation of a problem in the field of Mechanical Engineering, develops models for solutions and applies innovative methods in these solutions
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-
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5
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Has comprehensive knowledge on the contemporary applied method and techniques used in the field of Mechanical Engineering and their limitations
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-
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6
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Undertakes and implements analytic, simulation or experimental types of research and has the ability to solve the complex problems encountered there
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3
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7
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Can participate and assume responsibility in multidisciplinary task forces
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-
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8
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Observes the scientific, professional and ethical rules during data collection, its introduction and interpretation
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-
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9
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Be aware of recent advances and developments in the field of Mechanical Engineering, learns, analyses and applies them wherever needed
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3
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10
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Publishes his/her research findings verbally and in written forms in national and international arena
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-
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