ADVANCED MECHANICS OF MATERIALS I - University of …

ADVANCED MECHANICS OF MATERIALS I. CVEN 5161-001. Fall 2003. Instructor: Kaspar Willam Office: ECOT 456, hrs: MWF 10:00 - 11:00 Tel.:(303) 492-7011, e-mail: Prerequisites: Interest in MECHANICS and MATERIALS Course Organization: Lectures : TR 11:00-12:15 , ECCR 137. Assignments : Reading and Homework (20 %). Midterm # 1 : In-Class Examination (20 %). Midterm # 2 : Take-Home Examination (30 %). Project Report : Term-Project (20 %). Final Presentation : Tuesday, December 16, 2002, 7:30 - 10:00 am (10 %). Homepage: References: Arthur P. Boresi and Richard J. Schmidt, ADVANCED MECHANICS of MATERIALS . Sixth Edition, John Wiley & Sons, Inc., New York, 2003. Irving H. Shames and Francis A. Cozzarelli, Elastic and Inelastic Stress Analysis . Taylor & Francis Ltd, London, revised printing, 1997. Ansel C. Ugural and Saul K. Fenster, ADVANCED Strength and Applied Elasticity , Prentice Hall, Fourth Edition, Upper Saddle River, New Jersey, 2003. Kaspar J.

Course Outline 1. Preliminaries • Principles of Mechanics of Materials • Elements of Stress and Strain • Linear Elastic Materials • Failure Criteria of Materials

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1 ADVANCED MECHANICS OF MATERIALS I. CVEN 5161-001. Fall 2003. Instructor: Kaspar Willam Office: ECOT 456, hrs: MWF 10:00 - 11:00 Tel.:(303) 492-7011, e-mail: Prerequisites: Interest in MECHANICS and MATERIALS Course Organization: Lectures : TR 11:00-12:15 , ECCR 137. Assignments : Reading and Homework (20 %). Midterm # 1 : In-Class Examination (20 %). Midterm # 2 : Take-Home Examination (30 %). Project Report : Term-Project (20 %). Final Presentation : Tuesday, December 16, 2002, 7:30 - 10:00 am (10 %). Homepage: References: Arthur P. Boresi and Richard J. Schmidt, ADVANCED MECHANICS of MATERIALS . Sixth Edition, John Wiley & Sons, Inc., New York, 2003. Irving H. Shames and Francis A. Cozzarelli, Elastic and Inelastic Stress Analysis . Taylor & Francis Ltd, London, revised printing, 1997. Ansel C. Ugural and Saul K. Fenster, ADVANCED Strength and Applied Elasticity , Prentice Hall, Fourth Edition, Upper Saddle River, New Jersey, 2003. Kaspar J.

2 Willam, Constitutive Models for MATERIALS , Encyclopedia of Physical Science & Technology, 3rd Edition, Volume 3, Academic Press, pp. 603-633, 2002. Software: MATLAB, MATHEMATICA, ABAQUS, FEAP. Course Outline 1. Preliminaries Principles of MECHANICS of MATERIALS Elements of Stress and Strain Linear Elastic MATERIALS Failure Criteria of MATERIALS 2. Linear Elasticity Equilibrium of Elastic Bodies Kinematics of Deformable Bodies Boundary Value Problem of Linear Elasticity Exact and Approximate Solution Methods Airy Stress Functions in 2-dim Elasticity 3. Torsion of Elastic Bars Torsion of Cylindrical Bars St Venant Theory of Elastic Torsion Prandtl Soap Film Analogy Torsion of Thin-Walled Sections 4. Bending of Elastic Beams Euler-Bernoulli Beam Theory Timoshenko Beam Theory Linear Elasticity Solution of Bending Bending of Symmetric Sections Bending of Nonsymmetric Sections 5. Stability of Columns Concepts of Stability Elastic Buckling: Euler Formula Column under Eccentric Loading Beam-Column Analysis Inelastic Buckling: Engesser vs Shanley 6.

3 Thermal Stress Analysis Thermoelasticity Eigenstrains Heat Transfer Kelvin Effect

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