A. General Guidelines
1) Description: A simple bending technique, used for forming local, straight line, one
axis bent parts (such as corners, boxes, and machine guards). This type
of bending is usually preferable (if possible) to cold linebending.
2) The process: A bending device with localized heaters on one or two sides of the sheet to be bent is used.
The
“sandwiched“ two-sided heating method is preferable, since it retains
the same temperature on both sides at the time. a one-side heater
method requires turning the sheet over a few times during the heating
period, to maintain optimal temperature on both sides.
B. Steps & Indications
One-sided
heating method may suffice for sheets up to 3 mm (0.12 in.). Thicker
sheets or more demanding cases require using two-sided heating. Keeping
control of the sheet’s temperature limits of 155-167°C (31-332°F) is of
the utmost importance.
Forcing the bend at lower temperatures will
render the sheet fragile at the bend. This simple bending process
enables working with regular sheets, without pre-drying. Experimenting
with small samples before final execution is highly recommended.
PE Masking: When preparing for bending of regularly cladded sheets- peel off the
masking on both sides of the sheet along the bend line for about 100 mm
(4 in) on each side in TF prepared sheets. It is possible to process
the sheet with the masking on, up to 5 mm (0.2 in) thickness. For
sheets of 6 mm thickness or more the PE masking should be removed along
the bending line, as described above. Always test a few samples before
proceeding to production.
Heaters: Linear IR (Infrared) or resistance wires strip heating elements are used, preferably with heat reflectors. The
width of the heated zone depends on the number of elements used, the
spacing between them their specific thermal output and the distance
from the target sheet.
Bending process: When the sheet has reached the required temperature the heaters are to be switched off.
The
sheet, held in pivoted clamps, preferably equipped with a caliper, is
then bent to the required angle and secured there until it cools down
and sets.
Note: It
is recommended to perform the bend a few degrees tighter than the
required angle, as it may “go back” a little after cooling down. The
desired angle may be reached after a few trials.
Cooling is to be done in ambient air, taking care to avoid sudden drafts. These can cause distortion of the final product.
Minimal Hot-Line Bending Radius is 3 times the thickness of the bent sheet. Larger radii can be achieved by widening the heated zone.
C. Notes for Consideration
Local
hot line bending (or any other localized heating, for the matter)
induces internal stresses in the finished part, reducing the chemical
resistance of the element at the bending line zone. Such treatment is
therefore recommended for use in less demanding environments.
Localized
heating and cooling expansion/contraction characteristics are
unpredictable in many cases. Short elements (up to 1.00 m or 3.0 ft)
usually stay straight enough. Longer elements may distort to a concave
shape (the outer edges are longer than the line-bent side due to uneven
contraction).
This phenomenon can be
corrected or reduced by simple jigs or frames, which hold the part in
the right position during the cooling period. Annealing (see special
paragraph) may also correct this problem.
It is always advised to fabricate experimental test samples to check feasibility of the bending operation.
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