This drum iscutcompletely intwoata point a bout
3 /4"
above the bottom - completing the cut with a hand saw.
Both parts of the cut surface are faced off square and
smooth - then reglued together, breaking the joints exactly
half and half. The cutting and regluing process is repeated
with a section about 1W' wide.
After this, the temporary backing block is cut off, leaving
the bowl as shown in the final illustration. From this point
on, the work is simply a matter of turning down the bowl to
any desired shape.
TURNING
PLASTICS
TYPES OF PLASTICS
There are two general groups of plastics. The first includes all
phenol plastics molded under heat and pressure. Bakelite and
Formica are examples. In the second are all catalyst setting
plastics of various bases sold under such trade names as
Lucite, Catalin, Cast Bakelite, Marblette, Tenite and Trafford.
Those in the second group are most generally used for craft
work. They are easy to turn, being a little harder than wood
but much softer than any of the soft metals.
MOUNTING THE WORK
The most useful mounting device is the 4-jaw (metal lathe)
chuck. When this is not available, cylinders can be mounted
on a slightly tapered wooden mandrel. Rods can be mounted
between centers, using either the wood mounting centers or
metal mounting arrangements.
When the spur center is used,
slots should be sawed across the work.
USE OF WOOD TURNING CHISELS
Standard wood turning chisels are excellent for turning plas-
tics by means of scraping methods.
•
The tool rest should be slightly below center and the chisel
handle should be held a little higher than the cutting edge
to give a negative rake.
•
Scraping tools should be kept to a minimum. A large con-
tact area, such as the full edge of the spear-point chisel,
will cause chatter and probable chipping.
•
Properly worked, the chip comes off in a continuous ribbon.
•
In cold weather, plastic may become brittle and should be
tempered in warm water for about ten minutes before turning.
Figure 68
USE OF FORMED TOOLS FOR PRODUCTION
BEADING
AND SIMILAR OPERATIONS
When a number of identical pieces are to be produced, all
having a distinctive surface pattern, preformed tools will
speed the work and assure uniformity. Patterns like those
illustrated can be created by grinding thin (.020 to .010")
gauge aluminum strips. A holder, like the one shown, can
then be used to support any of your prepared strips and to
guide it against the workpiece.
Figure 69
"_
TURNING BALLS
Plastic balls are rough turned in the usual manner and then
brought to perfect roundness by using a tube tool. The tube
should be slightly less in diameter than the finished size of
the ball. It can be brass or steel, ground square across the
end. The tool is used with or without a rest, and is worked by
swinging it from side to side.
Figure 70
POLISHING PLASTICS
Start with sanding.
•
First use 150-grit dry paper to remove tool marks.
•
Then finish off with 150-grit and 400-grit papers, in succes-
sion. These abrasives should be wet.
•
Press lightly to avoid overheating and marring the work.
•
Buffing gives the final polish, using the polishing compounds
commonly supplied for this purpose. Do not press too hard or
hold the wheel at one spot too long - keep moving around -
otherwise the plastic might become heat marked.
SANDING,
BUFFING
AND POLISHING
USING THE LATHE TO SAND TURNINGS
•
Turnings should be sanded with the lathe running in sec-
ond lowest speed.
•
A large sheet of sandpaper is useful for smoothing cylinders.
•
All other sanding operations are done with a narrow strip
of abrasive paper. The best finishing grit is 3/0 for soft-
wood, 4/0 for hardwoods. Worn 2/0 paper is often used,
and is the equivalent of 3/0 or 4/0 new paper.
The application of the sandpaper strip is shown in the illustrations.
•
Care must be exercised in order to prevent dubbing the
corners of beads, shoulders, etc.
19