Weeks | Topics |
1 |
Determination of shear stresses on the basis of the shear force on the horizontal face of a beam element.
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2 |
Shear stress in thin-walled elements, unbalanced loading condition and determination of shear center.
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3 |
Plane Stress Transformation, Prime Stress, Maximum Shear Stress, Mohr Circle of Plane Stress, General Stress State.
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4 |
Application of Mohr's circle to stress analysis.
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5 |
Flow and fracture theories for ductile and brittle materials in plane strain.
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6 |
Plane deformation transformations, Plane deformation Mohr circle, Three dimensional deformation analysis.
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7 |
Prestresses in beams, Design of transfer shafts, Tension in combined load.
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8 |
Deformation of a beam subjected to transverse loading, Elastic Curve Equation.
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9 |
Midterm Exam
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10 |
Superposition method, Analysis with statically indeterminate beams by superposition method.
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11 |
Deformation analysis with moment field method in beams, Use of moment-field theorems in statically indeterminate beams.
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12 |
Determination of constructions, Obtaining Euler Form in Colon, Column design in central and eccentric basins.
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13 |
Deformation energy, Deformation energy for normal and shear stresses, Deformation energy for general stress state.
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14 |
Design of shock loads, impact loads, Castigliano theorem and displacement analysis with this theorem.
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