Tj. Renk et al., IMPROVEMENT OF SURFACE-PROPERTIES BY MODIFICATION AND ALLOYING WITH HIGH-POWER ION-BEAMS, Physics of plasmas, 5(5), 1998, pp. 2144-2150
Surface treatment and alloying experiments with Al, Fe, and Ti-based m
etals as well as Si wafers were conducted on the Repetitive High Energ
y Pulsed Power-I (RHEPP-I) accelerator [0.8 MV, 20 Ohm, 80 ns full wid
th at half maximum (FWHM) pulse width, up to 1 Hz repetition rate] at
Sandia National Laboratories. Ions are generated by the magnetically c
onfined anode plasma (MAP) gas-breakdown active anode, which can yield
a number of different beam species including H, C, N, O, Kr, and Xe,
depending upon the injected gas. Enhanced hardness and wear resistance
have been produced by treatment of 440C stainless steel, by the mixin
g of a thin-film Pt coating into Ti-6Al-4V alloy, and of a Si coating
into Al 6061-T6 alloy (Al-1.0Mg-0.6Si). Mixing of a thin-film Hf layer
into Al 6061-T6 has improved its corrosion resistance by as much as f
our orders of magnitude in electrochemical testing, compared with untr
eated and uncoated Al6061. Processing of Si was used to validate simul
ation codes. When treated with nitrogen ions, melt and full epitaxial
growth was observed to depths of 4-6 mu m. Experiments are ongoing to
further understand the microstructural basis for these surface improve
ments. (C) 1998 American Institute of Physics.