In summary, all of this suggests that the surface of the absorbing material—the interface with the sound field—should have relatively low density and that to achieve performance at lower frequencies, one may need to seriously consider how much real estate can be devoted to the task because materials that work well have appreciable thickness. The problem is the damage inadequately thick materials do to the sound quality of reflected sounds from loudspeakers. The appropriate fabric covering appears to have little effect at low and mid-frequencies, but it becomes refl ective at high frequencies, especially for sounds approaching from angle, as in the case of sidewall reflections.
The typical “acoustical” fabrics are not grille-cloth; they are acoustically translucent, not transparent. This means that loudspeakers should not be placed behind them. If they are stretched across a section of wall, even a blank wall,
and spaced away from the wall, they will function as absorbers—admittedly, not very good ones. Some installations, however, have large areas treated in this manner, so the audible effect can be significant. In home theaters, it is not
uncommon for walls to be sheathed in fabric chosen by an interior decorator, with little or no concern for what it may do to the performance of acoustical devices and materials underneath.
