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TURNING Chemcast® GP can be turned on a lathe to give
an excellent semimatte surface. Surface speeds of 500 feet per
minute with feeds of .004" to .005" per revolution will
cut a clean continuous chip. If the feed stops, the Chemcast® GP
may be marked. The maximum permissible depth of cut is controlled
by the rigidity of the section being turned. Chemcast® GP discs may be turned on a lathe
from square stock. Square blanks are clamped between the face
plate and a tailstock fitted with a live center and a pressure
pad. The blanks should be mounted slightly offcenter so the
waste is thrown clear. The cutting tool should be ground to zero
horizontal rake angle and fed at a 3° to 5° angle. ROUTING AND SHAPING Wood working shapers (also called table
routers) and overhead or portable routers are used in edge
finishing operations and for cutting flat or formed Chemcast® GP
parts to size. For edging small parts, the table router is
convenient; portable routers are useful wherever the Chemcast®
GP part is too large or awkward to bring to the machine. Routers should have a minimum noload spindle
speed of 10,000 r.p.m. Higher speeds are desirable and should be
used when possible. At slower spindle speeds, cutters should have
more flutes or larger diameters to produce necessary surface
speeds. Double straight fluted cutters 5/16 to1/2" in
diameter will produce good cuts. Smaller diameter cutters should
be used with care. If cutters larger than 1/2" in diameter
are used, the material should be machine fed rather than hand fed
to overcome chatter. For safety, cutter shanks should be at least
h" in diameter. Single fluted cutters should not be used
under any circumstances. When machining thick sections of Chemcast® GP,
better quality edges may be produced by using spiral fluted
cutters. Spiral fluted cutters always have a cutting edge in
contact with the material and chatter less than straight fluted
cutters. Carbide tipped cutters should be used whenever
possible since they stay sharp longer than high speed steel
cutters. All cutters should be kept sharp and should have a back
clearance of about 10 degrees and a positive rake angle of up to
15 degrees. The most common operations performed with
routers are deflanging and flange trimming. Such cuts may be made
with router cutters or with veneer saw blades attached to
portable or table routers by suitable arbors. When deflanging cuts must be made to close
tolerances, fixtures should be used to support the Chemcast® GP
and index the cut. Female fixtures are used for close tolerance
referred to the convex side of a formed part; male fixtures, to
the concave side. The Chemcast® GP should be clamped to the
fixture. In trimming close tolerance work, the part should not be
supported by its flange. In contrast to deflanging where the entire
flange is removed, flange trimming is merely reduction of the
size of the flange. Table saws can be used for flange trimming
and will produce a good quality edge. For high accuracy trimming,
place the part on a lightweight male shape with runners to fit
the saw table grooves. Another method is to install a gauging
device on the saw fence so that the flange is trimmed by indexing
from the outer surface of the return of the part. Portable routers or table shapers equipped with
wood working router bits are also commonly used in this
operation. Depending on the equipment used, a template may or may
not be necessary. This cutter is useful in trimming cemented
assemblies. The pilot is the same diameter as the cutter and
rides the guiding surface of one part of the assembly as the
cutter trims the other. |
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Copyright © Plastiglas de Mexico 1999
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