Five commercially available steel fibers with different geometries wer
e investigated both in dry-mix and in wet-mix shotcretes. In the dry p
rocess, bulk-bin bags with dry premixes were used. In the wet process,
ingredients were wet-mixed centrally in a batching plant and then tra
nsported to the shooting site in ready-mix trucks. Mixes were shot on
wooden forms and the rebound characteristics of the fibers and other i
ngredients were determined. Once hardened, shotcrete panels were sawed
and cored to obtain beam specimens for flexural toughness tests and c
ylinders for compression tests. Hardened shotcrete specimens were also
tested for boiled absorption and permeable voids. The boiled absorpti
on and permeable voids data indicated that an adequately dense in-plac
e shotcrete was obtained for both processes. The rebound of fibers in
the dry process was found to be much higher than that in the wet proce
ss. Both compressive and flexural strengths were found to be improved
because of the addition of fibers. Fibers also led to a significant en
hancement in the toughness of shotcrete.