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FORMING EQUIPMENT PRESSES* The amount of pressure needed to form Chemcast® GP is much
less than that needed to form metal. Presses with a capacity of
one ton per square foot of platen area are adequate for forming,
including corrugating. The following rule of thumb can be used to calculate the total
force in pounds required to form the average sign face by the
plug and ring method: Calculate the perimeter of the basic shape,
all letters and copy in inches and multiply the total by 30 Vertical presses may have (a) a fixed lower Platen and a
moving upper Platen or (b) moving lower and upper Platens.
Horizontal presses in which the Platens move in a horizontal
Plane are also available. Such presses may be operated by air or
hydraulic cylinders which have a stroke of at least 18U (the
stroke should be three times the maximum depth of draw). Platens
should have a steady rate of travel of from 5 to 15 feet per
minute without chatter. They should be rigid and not deflect more
than i/s" when loaded to capacity. CLAMPING RINGS AND CLAMPS Some means should be used for holding the edges of the sheet against the form during forming and cooling. For very simple shapes, rubber bands can be fastened to the form and snapped over the edges of the formed Chemcast® GP. For more complicated shapes, a clamping ring is made to fit the contours of the form. The clamping ring is brought to bear on the edges of the sheet to hold it in Place. The ring should be hinged or located by guide pins on the form so that it will always be in correct position in relation to the form, allowance being made for the thickness of the sheet. The ring may also be used as a template of the finished part so that when the Plastic is cool, the "trim line" may
be scribed while the part is on the form. The Chemcast® GP
should not be scribed until it has cooled since the material
contracts during cooling. The surface of the clamping ring which contacts the hot
Chemcast® GP should provide a non~slip grip. The clamp faces can
be surfaced with a variety of materials such as coarse sandpaper,
ping pony paddle rubber or perforated metal. The choice of
clamping method will usually depend on the number of and rate at
which the parts must be formed. If only a few parts are to be
formed, wood clamps or "C" clamps may be used. For high
production rates, toggle clamps or air cylinder actuated clamping
rings are used. Forming presses and clamping fixtures may be
combined in many different ways to meet the need for versatile
forming equipment or specialized devices capable of high
production rates. Forming equipment may be constructed from
readily available parts and materials to suit any requirement. A
few typical designs are discussed below. To form parts such as skylight domes with compressed air, the
vacuum/pressure table is first covered with kraft paper to block
off the vacuum holes, then covered with light flannel to diffuse
the air and prevent chilling of the heated Chemcast® GP when it
is clamped in the press. A dome of any desired height within the
daylight opening is formed by admitting compressed air. The front
side of the clamping frame is hinged at the top so it may be
raised to facilitate removing the part after forming. Vacuum forming is carried out in a similar manner using a
perforated mold on the vacuum/pressure table. Vacuum holes
outside the area of the piece to be formed are covered with kraft
paper. Heated Chemcast® GP is clamped to the mold, in this case,
corrugated metal with letters attached, and a vacuum is drawn,
forming the sheet. |
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Copyright © Plastiglas de Mexico 1999
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