Citation: Mj. Sablik, Modeling the effect of grain size and dislocation density on hysteretic magnetic properties in steels (vol 89, pg 5610, 2001), J APPL PHYS, 90(4), 2001, pp. 2051-2051
Citation: Mj. Sablik et al., Finite element modeling of magnetoacoustic emission and of stress-induced magnetic effects at seam welds in steel pipes, J APPL PHYS, 89(11), 2001, pp. 6731-6733
Citation: Mj. Sablik et al., Modeling grain size and dislocation density effects on harmonics of the magnetic induction, J APPL PHYS, 89(11), 2001, pp. 7254-7256
Citation: Mj. Sablik, Modeling the effect of grain size and dislocation density on hysteretic magnetic properties in steels, J APPL PHYS, 89(10), 2001, pp. 5610-5613
Citation: Mj. Sablik et al., Designing a giant magnetoresistance field sensor via inferences from a giant magnetoresistance hysteresis model, J APPL PHYS, 87(9), 2000, pp. 5347-5349
Authors:
Parra, JO
Ababou, R
Sablik, MJ
Hackert, CL
Citation: Jo. Parra et al., A stochastic wavefield solution of the acoustic wave equation based on therandom Fourier-Stieltjes increments, J APP GEOPH, 42(2), 1999, pp. 81-97
Citation: Mj. Sablik et Dc. Jiles, A modified Stoner-Wohlfarth computational model for hysteretic magnetic properties in a ferromagnetic composite rod under torsion, J PHYS D, 32(16), 1999, pp. 1971-1983
Citation: Mj. Sablik et al., Modeling biaxial stress effects on magnetic hysteresis in steel with the field and stress axes noncoaxial, J APPL PHYS, 85(8), 1999, pp. 4391-4393