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Course Criteria
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3.00 Credits
LEC. 3. Pr., MECH 3230 or Instructor Consent. Stress and strain analysis of cracked bodies, energy release rate, Griffith problem, modes of fracture crack tip fields, stress intensity factors, small scale crack tip yielding, the J-integral, HRR equations, experimental and numerical methods for fracture parameter estimation.
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3.00 Credits
LEC. 3. Pr., MECH 3130. Stress and strain analysis in 3-D, constitutive behavior of elastic solids, orthotropy and isotropy, stress compatibility equations, Navier's equation, stress functions, applications.
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3.00 Credits
LEC. 3. Pr., MECH 6300. Cartesian and curvilinear tensor analysis, with applications to the mechanics of continuous media. Constitutive equations for solids and fluids.
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3.00 Credits
LEC. 3. Pr., MECH 3130. Experimental methods for measurement of stress, strain and displacement. strain gauges, transducers and brittle coatings. Transmission photoelasticity and photoelastic coatings. Introduction to moire and coherent optical techniques.
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3.00 Credits
LEC. 3. Pr., MECH 6300. Introduction to modeling material behavior of non-elastic materials. Theories of plasticity, linear and non-linear viscoelasticity and viscoplasticity. Applications to modern engineering materials and simple structural members.
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3.00 Credits
LEC. 3. Pr., MECH 3130. Properties and mechanical behavior of fiber-reinforced composite materials. Anisotropic stress-strain relations, orthotropic elasticity and laminated plate theories, failure Criteria, applications.
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3.00 Credits
LEC. 3. Pr., MECH 3130. Theories for the bending and stretching of plate and shell structures. Transverse loading, buckling, vibration, and thermal stress problems. Introduction to energy methods, numerical techniques, and large deflection theories.
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3.00 Credits
LEC. 3. Pr., MECH 3130. Energy methods in solid mechanics. Virtual work, stationary potential energy and variational calculus. Elastic strain energy. Applications to bars, trusses, beams, frames and plates. Castigliano's Theorem and Ritz Method.
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3.00 Credits
LEC. 3. Pr., MECH 3130. Measurement of stresses, strains, and deformations using optical methods; optical interference; Fourier optics; optical spatial filtering, white light methods; cohenent optical methods.
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3.00 Credits
LEC. 3. Pr., MECH 6430 or PHYS 7200. Linear and nonlinear optical properties, correlation with material-structure, electro-optic effects, lasers, frequency conversion, fiberoptics, technological applications.
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