• Theoretic principles of plastic deformation. Outward and inward forces.
• Tension on co - ordinate levels. Method cuts. Three normal and six tangent stress component.
• State of stress in common level. Octahedral plane.
• Size of normal tension. Primary objective normal tension. Stress quadric. Primary objective shear tension.
• Mohr circles. Invariance stress and mathematical formulation of three invariants. Tension in octahedral level.
• Graphical determination shear tension. Stress tensor.
• Schematics principal stresses. Deviator diagram tension and invariance tension deviator.
• Stress intensity. Graphic solution of stress intensity intensity tension by various methods.
• Indicator stress intensity. Stress ( linear, planar - how normal so and shear stress, three-dimensional).
• Differential equation of equilibrium in rectangular coordinates. Outline solving differential part in cylindrical and spherical coordinates.
• Differential equation of equilibrium in rolling gap between rollers at lengthwise rolling.
• Deformation of formed body. Deformation rate. Stress tensor formulation, deformation rate, schematics deformation. Interrelations between tension and deformation.
• Tension on co - ordinate levels. Method cuts. Three normal and six tangent stress component.
• State of stress in common level. Octahedral plane.
• Size of normal tension. Primary objective normal tension. Stress quadric. Primary objective shear tension.
• Mohr circles. Invariance stress and mathematical formulation of three invariants. Tension in octahedral level.
• Graphical determination shear tension. Stress tensor.
• Schematics principal stresses. Deviator diagram tension and invariance tension deviator.
• Stress intensity. Graphic solution of stress intensity intensity tension by various methods.
• Indicator stress intensity. Stress ( linear, planar - how normal so and shear stress, three-dimensional).
• Differential equation of equilibrium in rectangular coordinates. Outline solving differential part in cylindrical and spherical coordinates.
• Differential equation of equilibrium in rolling gap between rollers at lengthwise rolling.
• Deformation of formed body. Deformation rate. Stress tensor formulation, deformation rate, schematics deformation. Interrelations between tension and deformation.