Thick, hard-magnetic Nd-Fe-B films (similar to 1 mm) were deposited on diff
erent substrates (Cu, steel) by a low-pressure plasma-spraying process. The
properties of the applied Nd-Fe-B powders (e.g., grain size, composition)
and the conditions of the spraying process were optimized with respect to t
he mechanical and magnetic properties of the films. Film thicknesses up to
1.2 mm were achieved with good adhesive properties (bond strength > 40 MPa)
. Cracks at the interface or within the films during the deposition process
could be suppressed by adjusting the temperature profile of the substrate
and controlling the deposition rate. Depending on the maximum temperature o
f the substrate and the thickness of the Nd-Fe-B films, either amorphous or
microcrystalline structures were obtained. In general, the magnetic proper
ties were improved by a postdeposition annealing treatment. Coercivities H-
cJ up to 16 kA/cm and isotropic remanences of about 0.6 T were achieved. (C
) 2000 American Institute of Physics. [S0021-8979(00)22108-7].