This Article 
 Bibliographic References 
 Add to: 
Simulating Electromagnetic NDT Probe Fields
May/June 1983 (vol. 3 no. 3)
pp. 21-28
Nathan Ida, Colorado State University
William Lord, Colorado State University
Using computer graphics and film technologies, engineers can now numerically model the nondestructive testing technique that detects flaws in the pressurized steam pipes of nuclear power plants.

1. H. L.Libby, Introduction to Electromagnetic Nondestructive Test Methods , Wiley-Interscience 1971
2. A. M.Winslow, “Numerical Solution of the Quasilinear Poisson Equation in a Nonuniform Triangle Mesh,” J. Computational Physics Vol. 2, 1967
3. P.Silvester and M. V. K.Chari, IEEE Trans. Power Apparatus and Systems , 1970 Vol. 80, pp. 1642-1651
4. J. H.Hwang and W.Lord, “Finite Element Analysis of the Magnetic Field Distribution Inside a Rotating Ferromagnetic Bar,” IEEE Trans. Magnetics Vol. Mag-10, No. 4, pp. 1113-1118 Dec. 1974
5. W.Lord and R.Palanisamy, G. B.Birnbaum, and G.Free, Eddy Current Characterization of Materials and Structures , 1981 ASTM STP 722
6. O. C.Zienkjewicz, The Finite Element Method in Engineering Science , McGraw-Hill 1971 1976
7. J.Donea, S.Givliani, and A.Phillipe, “Finite Elements in the Solution of Electromagnetic Induction Problems,” Int'l J. Numerical Methods in Engineering Vol. 8, pp. 359-367 1974

Nathan Ida, William Lord, "Simulating Electromagnetic NDT Probe Fields," IEEE Computer Graphics and Applications, vol. 3, no. 3, pp. 21-28, May-June 1983, doi:10.1109/MCG.1983.263057
Usage of this product signifies your acceptance of the Terms of Use.