Testing Electromagnetic Analysis Methods (T.E.A.M.)
The following is the list of T.E.A.M. problems available in electronic format.
Notes: You can view and download the problems in PDF format. You will need a PDF reader, such as Adobe Acrobat reader, to view these articles.
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| Problem 1a |  |
The FELIX Long Cylinder Experiment |
| Problem 1b | |
The FELIX Short Cylinder Experiment |
| Problem 2 | |
Infinitely Long Cylinder in a Sinusoidal Field |
| Problem 3 | |
Bath Plate with 2 Holes |
| Problem 4 | |
The FELIX Brick Experiment |
| Problem 5 | |
The Bath Cube |
| Problem 6 | |
Sphere in Uniform Magnetic Field |
| Problem 7 | |
Asymmetrical Conductor with a Hole |
| Problem 8 | |
Coil Above a Crack: A Problem in Non-Destructive Testing |
| Problem 9 | |
Velocity Effects and Low Level Fields in Axisymmetric Geometries |
| Problem 13 | |
3-D Non-Linear Magnetostatic Model |
| Problem 15 | |
Rectangular Slot in a Thick Plate: A Problem in Non-Destructive Evaluation |
| Problem 17 | |
The Jumping Ring |
| Problem 18 | |
Waveguide Loaded Cavity |
| Problem 19 | |
Microwave Field in a Loaded Cavity |
| Problem 20 | |
3-D Static Force Problem |
| Problem 21 Updates Input Data |
|
3-D Stray Field Loss Model: Benchmark Family |
| Problem 22 | |
SMES Optimization Benchmark |
| Problem 23 | |
Force Calculations in Permanent Magnets |
| Problem 24 | |
Nonlinear Time-Transient Rotational Test Rig |
| Problem 25 | |
Optimization of Die Press Model |
| Problem 27 | |
Eddy Current NDT and Deep Flaws |
| Problem 28 | |
An Electrodynamic Levitation Device |
| Problem 29 | |
Whole BodyCavity Resonator |
| Problem 30a | |
Induction Motor Analyses |
| Problem 30b | |
Analytic Analysis of Single and Three Phase Induction Motors |
| Problem 31 | |
Reconstruction of Low Frequency Currents |
| Problem 32 | |
Validation of Magnetic Field Analysis with Vector Hysteresis |
| Problem 33a Annex | |
Annex to TEAM problem 33a |
| Problem 33a | |
Experimental Validation of Magnetic Local Force Formulations |
| Problem 33b | |
Experimental Validation of Electric Local Force Formulations |
| Problem 34 | |
Analytical Solution to the Problem of a Spherical Induction Motor with an Anisotropic Rotor |
| Problem 35 | |
Multi-Objective Pareto Optimization of a Solenoid  |
| Problem 36 | |
Multi-Physics Field Analysis of an Induction Heating Device |
Problem 22 is available on the network from http://www.igte.tugraz.at/team22
For more information on Problem 34, visit http://www.elektr.polsl.pl/dspalek/