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Viscoelasticity
MECH 6355
Erik Jonsson School of Engineering and Computer Science
This course provides an overview of advanced stress analysis of solids with properties strongly influenced by time, temperature, pressure, and humidity. Topics covered include: the material characterization and thermodynamic foundation of the constitutive behavior of time-dependent materials such as polymers, and composites; time-temperature superposition principle for thermorheologically simple materials; correspondence principle; integral formulation for quasi-static boundary value problems; treatment of time-varying boundary conditions; linear viscoelastic stress waves, approximate methods of linear viscoelastic stress analysis; and introduction to nonlinear viscoelastic constitutive laws. 3 credit hours.
Prerequisite: MECH 6306 or MECH 6350 or equivalent.
Offering Frequency: Based on student interest and instructor availability
Grades: 14
Median GPA: A
Mean GPA: 3.929
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Viscoelasticity
MECH 6355
Erik Jonsson School of Engineering and Computer Science
This course provides an overview of advanced stress analysis of solids with properties strongly influenced by time, temperature, pressure, and humidity. Topics covered include: the material characterization and thermodynamic foundation of the constitutive behavior of time-dependent materials such as polymers, and composites; time-temperature superposition principle for thermorheologically simple materials; correspondence principle; integral formulation for quasi-static boundary value problems; treatment of time-varying boundary conditions; linear viscoelastic stress waves, approximate methods of linear viscoelastic stress analysis; and introduction to nonlinear viscoelastic constitutive laws. 3 credit hours.
Prerequisite: MECH 6306 or MECH 6350 or equivalent.
Offering Frequency: Based on student interest and instructor availability
Grades: 14
Median GPA: A
Mean GPA: 3.929
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