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Internal forces in bending beams. Learning outcomes – written elaboration of theoretical problems. Shear force and bending moment.
Relationship between power, torque and rotational velocity. Learning outcomes – numerical tasks. A student is able to calculate generalized properties of areas for open thin-walled cross-sections.
To familiarize students with basic theoretical information concerning the strength of materials. A student is able to solve the problem of torsion of a thin-walled bar with an open cross-section.
Determination of fatigue strength. Basic cases of combined stress systems. Presentation of methods of statics of thin-walled rod with open cross-section. Evaluation of problem solutions applied to learning outcomes no 1, 2, 3, 4, 5 and 6.
Theories of elastic failure. Test related to lecture material applied to learning outcomes no 1, 2, 3, 4, 5 and 6. Stress and strains in bending.
Wytrzymalosc materialow Tom 2 : Zdzislaw Dylag :
Effect of shearing on stability. To familiarize students with practical application of the methods of analysis of mechanical properties of materials and the experimental verification of theoretical relations. Moment materiiaw inertia of plane areas. Parallel – axis Steiner theorem. Relationship between T and Mg.
On the completion of the course student will be able to: A student is able to determine critical load using energy methods.
Ebooks For Mobile Wytrzymalosc Materialow T1 By Zdzislaw Dylag Antoni Jakubowicz Zbigniew Orlos Pdf
Presentation of energy methods of estimation of critical load. Examples of constrained torsion of thin-walled bars with open cross-sections. To acquire skills to determine the strength parameters of construction elements. Definition of moment of inertia of areas with respect to axis. Energy methods of calculation of critical loads including effect of shear forces. Helical springs subjected to axial load.
Torsion of circular shaft of solid sections and of hollow circural sections. Theory of constrained torsion of thin-walled bars with open cross-sections. Learning outcomes – reports of exercises. Describing the influence of shear force and plastic strain in buckling analysis.
Praca zbiorowa pod red. Relationship between modules E, G and Poisson’s ratio. A student is able to estimate the influence of shear force in stability analysis for structural members. A student is able to solve buckling problems taking into account plastic material properties. A student is able to determine the distribution of normal and shear stresses for twisted thin-walled open-section members with non-freely warping.
Determination of shear strain modulus G.
Strength of Materials (09 63 01)
Tensile and compression tests. Achieving all the intended learning outcomes for the subject of Materials Science, Mechanics, Mathematics. Deflection of a beam.