CONSTRUCTION NOTES: FIBERGLAS BOXES

 CONSTRUCTION NOTES: FIBERGLAS BOXES

                             MATERIALS ARE:
                 
  ONE: 1/4 INCH PLYWOOD, standard 4x8 foot sheets, construction as opposed
  to finish grade unless it is not planned to cover the sides in fabric,
  which is normal practice, and keeps all of the wood out of sight.

  TWO:  FABRIC, normally Jute Burlap, which is dimensionally stable, can be
  painted (water base) to any color, available at 60 (or more) inches wide,
  and inexpensive. In addition to it's other good points, the thicker grades
  are a nearly perfect foil to Fiberglas, which gets a little reflective
  at very high frequencies. The combination of the two is as close to a
  perfect/practical absorber as possible. Open cell foam plastics can be as
  good or better, but are both expensive and delicate, and present a very
  serious fire hazard in terms of fumes even when fireproofed.

  THREE: FIBERGLAS, Corning 703 (3 pound) semi-rigid board or equivalent.
  The Corning product is better at the low end than others, but also nearly
  double the cost of competitive products. Since low frequency absorption
  as such can be managed using polycylindrical diffusers in small numbers,
  a case can be made for using less costly fiberglass products, but they
  require that polys be used in the room.

  CONSTRUCTION: Boxes are normally made at 4x8 feet to minimize cutting and
  6 inches deep to provide adequate bass absorption. However: The actual
  size of glass boards varies a little between manufacturers, so the
  material in real use should be measured and boxes built to fit.

  2x4 boards are usually 1/4 scant, so when inserted 2 wide and 2 high
  (8 ea 3" boards) will fit neatly in a 4x8 foot O.D. 1/4" box touching
  but not forced. Don't squeeze the boards!

  Thickness is another matter as glass board won't compress, so it is
  usually necessary to build the boxes at 6-1/2 inches depth to allow for
  a 3 to 4 x 1/4" strip across the middle of the box front and back to
  capture the internal board seams. Alternately, the boards take silicon
  sealer/caulk very well and allow a 6" box. Either will prevent the
  board's bowing out in the middle.

  Box sides, top, and bottom are screwed to 2x2s at the corners (1-5/8"
  wallboard  screws), wrapped in chicken yard fencing or equivalent to
  support the glass board, and all visible surfaces covered in Jute Burlap
  cloth, both stapled to the 1/4 plywood. If the boxes are mounted
  separately from each other and the Jute won't reach the back, small trim
  on each side will conceal the problem, OR one can buy wider Jute.

  Boxes can be hung with screen door hooks, picture hanging wire or what
  not anchored to the top 2x2s.

  Trimming the glass to allow the 2x2s is easily done with a big, cheap
  scalloped edge bread knife. Long cuts, however, are not recommended
  unless really needed, and it is well to keep in mind that acoustical
  treatment is generally +/- 10% so filling the last few inches is a waste
  of time and energy.
        
               CONSTRUCTION NOTES: POLYCYLINDRICAL DIFFUSERS                   

                             MATERIALS ARE:

  ONE: TEMPERED MASONITE, usually 1/8 inch as thicker is more difficult to
  handle and requires more strength in frame construction. Pegboard can be
  used but may fracture and has no advantages unless pegboard hooks are
  needed for hanging cables and so forth.

  TWO:  2X4 AND 2X2 inch lumber for an open mount OR 6x1 inch finish and
  2x2s for a shadowbox. The lumber needs be reasonably straight, otherwise
  select for appearance.

  The purpose of the unit is to provide high end dispersion and low end
  absorption in one device.

  These ends are accomplished by suspending a sheet of Masonite by it's
  vertical edges (only), bowed out about 6 inches between the vertical
  sides of the mount, and free to vibrate at all points except the vertical
  edges.

  When Masonite is compressed between side boards at 46-1/2 inches, it
  takes the shape of an ellipse, reflecting medium to high frequency
  sound at all possible angles from 0 to 30 degrees, as an ellipse is
  made up of parts of an infinite number of circles, as with the edge of
  a football.

  While 6" is not the only possible build-out, is a rational design as it
  is reasonably inconspicuous, forms a good ellipse, and exerts manageable
  side forces on the mount. These forces become excessive at lower figures,
  although they lessen as the Masonite warps to form, and at about one
  foot the panel starts to become a semi-circle, which yields poorer
  diffusion, and probably less bass absorption.

  PLACEMENT, MOUNTING, APPEARANCE: Although polys will work as dispersers
  in any location and size, both are important to bass absorption.

  Defining a corner as two walls at 90 degrees, bass collects in corners
  as it compresses into them, so polys in or across corners yields maximum
  absorption. Additionally, corners reflect multi phase comb filtered top
  end, which sounds bad, and polys cure that as well as killing excess bass.

  Still further, polys in corners appear to work at lower frequencies than
  when wall mounted, provided only that the walls forming the corner be
  (at least) as long as the polys' maximum diagonal, which makes ceiling
  to wall installation attractive as short polys can be mounted over the
  length of a wall at the ceiling line. Known effective.

  Mounting as such can be done by simply beveling 2x2s, nailing them onto
  a wall and squeezing Masonite between them, but it is usually better to
  make them removable by hanging them. It is very important to keep the
  Masonite clear bottom and top, and allow generous air flow behind it,
  as either done wrong will partially cripple bass absorption.

  Masonite sheets in polys can be painted, wallpapered, cloth covered, and
  so forth, but don't add serious weight or thickness.

  TRIVIA:  A full 4x8 sheet, wall mounted, calculates to 63 Hz. Hum is 60
  or 120, but rumble in big rooms goes much lower, so if it is present
  (as with being next to trains) they will require big units. 12x12
  contiguous will absorb to 33 Hz, 12x14 to 21. Lowest frequency for a
  room can be calculated as 1/2 1130/longest dimension. 60 feet, 9.42 Hz.

  Masonite hung top and bottom potbellies within a year. Ugly, and so not
  reccomended.

  If you want to see polys, look at bandshells and old stage theaters. They
  are not a new idea, just neglected.