Abstract
Design is an art and must be studied through examples like any other art. Engineering design naturally includes a large element of engineering science, which is best acquired in an analytic and deductive fashion. Expertise in the art of design, on the other hand, is best learned by case studies and by emulation of others. To aid the reader in finding examples related to specific classes of problems, this bibliography is provided.
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References
Introduction
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Magnetic Material Representation
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The Potential Equations of Magnetics
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Problem Modelling and Mesh Construction
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Field Problems in Magnetic Devices
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Postprocessing Operations in CAD
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Palka, R.: Application of the finite element technique to continuation problems of stationary fields. IEEE Transactions on Magnetics, MAG-19, pp. 2356–2359, 1983.
Penman, J., Fraser, J. R., Smith, J. R., Grieve, M. D.: Complementary energy methods in the computation of electrostatic fields. IEEE Transactions on Magnetics, MAG-19, pp. 2288–2291, 1983.
Piriou, F., Razek, A.: Calculation of saturated inductances for numerical simulation of synchronous machines. IEEE Transactions on Magnetics, MAG-19, pp. 2628–2631, 1983.
Rafinejad, P., Sabonnadiere, J. C.: Finite element computer programs in design of electromagnetic devices. IEEE Transactions on Magnetics, MAG-12, pp. 575–578, 1976.
Rajanathan, C. B., Lowther, D. A., Freeman, E. M.: Finite–element analysis of the Xi-core levitator. IEE Proceedings, 131, pp. 62–66, 1984.
Silvester, P., Konrad, A.: Analysis of transformer leakage phenomena by high-order finite elements. IEEE Transactions on Power Apparatus and Systems, PAS92, pp. 1843–1855, 1973.
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Strangas, E. M., Hamilton, H. B.: A model for the chopper controlled dc series motor. IEEE Transactions on Power Apparatus and Systems, PAS-102, pp. 1403–1407, 1983.
Takeda, Y., Yagisawa, T., Suyama, A., Yamamoto, M.: Application of magnetic wedges to large motors. IEEE Transactions on Magnetics, MAG-20, pp. 1780–1782, 1984.
Yamada, H., Fujibayashi, K.: Torque of solid salient pole machine by finite element method. Journal of Applied Physics, 53, pp. 8375–8377, 1982.
Weiss, J., Garg, V. K., Sternheim, E.: Eddy current loss calculation in multicon– ductor systems. IEEE Transactions on Magnetics, MAG-19, pp. 2207–2209, 1983.
Postprocessing Systems for Magnetics
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Lowther, D. A., Silvester, P. P., Freeman, E. M.: The use of interactive postprocessing in the design of electromagnetic devices. IEEE Transactions on Magnetics, MAG-16, pp. 803–805, 1980.
Lowther, D. A., Silvester, P. P., Freeman, E. M., Rea, K., Trowbridge,C. W., Newman, M., Simkin, J.: Ruthless—a general purpose finite element postprocessor. IEEE Transactions on Magnetics, MAG-17, pp. 3402–3404, 1981.
Lowther, D., Rea, K., Silvester, P., Freeman, E., Trowbridge, C., Simkin, J., Newman, M.: A stack configured vector calculator for electromagnetic field evaluation. IEEE Transactions on Magnetics, MAG-18, pp. 627–629, 1982.
Lowther, D. A., Forghani, B.: Interactive postprocessing techniques for electromagnetic field analysis. IEEE Transactions on Magnetics, MAG-19, pp. 2168–2170, 1983.
CAD Systems Present and Future
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Biddlecombe, C. S., Edwards, C. B., Shaw, M. J.: Use of the computer code PE2D in the electrostatic modelling of an electron-beam-generator/vacuum-diode interface. IEE Proceedings, 129, pt. A, pp. 337–339, 1982.
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Brauer, J. R.: Finite element calculation of eddy currents and skin effects. IEEE Transactions on Magnetics, MAG-18, pp. 504–509, 1982.
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Diserens, N. J.: A space charge beam option for the PE2D and TOSCA packages. IEEE Transactions on Magnetics, MAG-18, pp. 362–366, 1982.
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Konrad, A.: A linear accelerator cavity code based on the finite element method. Computer Physics Communications, 13, pp. 349–362, 1978.
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Lowther, D. A.: A microprocessor based electromagnetic field analysis system. IEEE Transactions on Magnetics, MAG-18, pp. 351–356, 1982.
MacNeal, R. H., McCormick, C. W.: The NASTRAN computer program for structural analysis. Computers and Structures, 1, pp. 389–412, 1971.
Pillsbury, R. D., Jr.: NMLMAP—a two dimensional finite element program for transient or static linear or nonlinear magnetic field problems. IEEE Transactions on Magnetics, MAG-18, pp. 406–410, 1982.
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© 1986 Springer-Verlag New York Inc.
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Lowther, D.A., Silvester, P.P. (1986). The Literature of CAD in Magnetics. In: Computer-Aided Design in Magnetics. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-70671-4_9
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