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AE 6123: Fiber Reinforc Composite
0.00 - 3.00 Credits
Georgia Institute of Technology-Main Campus
Composite material systems, composite structures including anisotropic plate and shell theory, shear deformation, hygrothermal and interlaminar stresses. Finite element modeling. Design case studies and cost-effective applications for thin-walled sections.
Prerequisite:
Undergraduate Semester level ME 2211 Minimum Grade of D or Undergraduate Semester level AE 2120 Minimum Grade of D
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AE 6123 - Fiber Reinforc Composite
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AE 6161: Theory of Plates
3.00 Credits
Georgia Institute of Technology-Main Campus
Development of isotropic and anisotropic plate theories. Classical and energy solutions for various geometrics and loadings. Aerospace applications including elastically coupled composite and sandwich plates.
Prerequisite:
Graduate Semester level AE 6106 Minimum Grade of D
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AE 6161 - Theory of Plates
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AE 6162: Shell Structures
3.00 Credits
Georgia Institute of Technology-Main Campus
Analysis of stresses and deformation of shells with and without bending, shells forming surfaces of revolution, asymptote methods, buckling of shells, nonlinear theories.
Prerequisite:
Graduate Semester level AE 6161 Minimum Grade of D
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AE 6162 - Shell Structures
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AE 6165: Prin-Fracture & Fatigue
3.00 Credits
Georgia Institute of Technology-Main Campus
Brittle and ductile fracture. Determination of stress intensity factors. Analytics of fracture mechanics. Elastic-plastic fracture. Energy release rate. Mechanics of fatigue. Crack growth. Environmental effects.
Prerequisite:
Undergraduate Semester level ME 2211 Minimum Grade of D or Undergraduate Semester level AE 2120 Minimum Grade of D
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AE 6165 - Prin-Fracture & Fatigue
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AE 6170: Structural Optimization
3.00 Credits
Georgia Institute of Technology-Main Campus
Mathematical methods of constrained optimization, sensitivity analysis, approximation concepts, decomposition techniques, shape optimization in the context of structural design.
Prerequisite:
Undergraduate Semester level AE 3122 Minimum Grade of D
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AE 6170 - Structural Optimization
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AE 6200: Aeroelasticity
3.00 Credits
Georgia Institute of Technology-Main Campus
Understanding and analysis of aeroelastic phenomena in fixed-wing aircraft, static aeroelasticity, dynamic aeroelasticity, and dynamic response and transient stresses in aircraft structures.
Prerequisite:
Graduate Semester level AE 6230 Minimum Grade of D
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AE 6200 - Aeroelasticity
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AE 6210: Advanced Dynamics I
3.00 Credits
Georgia Institute of Technology-Main Campus
Kinematics of particles and rigid bodies, angular velocity, inertia properties, holonomic and nonholonomic constraints, generalized forces.
Prerequisite:
Undergraduate Semester level AE 2220 Minimum Grade of D
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AE 6210 - Advanced Dynamics I
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AE 6211: Advanced Dynamics II
3.00 Credits
Georgia Institute of Technology-Main Campus
A continuation of AE 6210. Equations of motion, Newtonian frames, consistent linearization, energy and momentum integrals, collisions, mathematical representation of finite rotation.
Prerequisite:
Graduate Semester level AE 6210 Minimum Grade of D
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AE 6211 - Advanced Dynamics II
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AE 6220: Rotorcraft Dynamics
3.00 Credits
Georgia Institute of Technology-Main Campus
Elementary blade dynamics, flap-lag dynamics, ground resonance, structural dynamics of rotating beams, nonlinear elastic blade analysis, harmonic balance and trim, Floquet theory.
Prerequisite:
Graduate Semester level AE 6210 Minimum Grade of D and Graduate Semester level AE 6230 Minimum Grade of D
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AE 6220 - Rotorcraft Dynamics
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AE 6230: Structural Dynamics
3.00 Credits
Georgia Institute of Technology-Main Campus
Dynamic response of single-degree-of-freedom systems, Lagrange's equations; modal decoupling; vibration of Euler-Bernoulli and Timoshenko beams, membranes and plates.
Prerequisite:
Undergraduate Semester level AE 3120 Minimum Grade of D and Undergraduate Semester level AE 3515 Minimum Grade of D
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AE 6230 - Structural Dynamics
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