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9
Welding Process
Stud welding with tip ignition is divided into contact stud welding and gap stud wel-
ding. This stud welding unit must be used exclusively for stud welding with contact
and gap.
9.1
Contact Stud Welding
– The stud welding gun is placed onto the workpiece (see figure, position 1). The
welding element which projects above the welding gun support legs, is pushed
back tensioning a pressure spring.
– After positioning the stud welding gun against the workpiece, the operator pres-
ses the welding gun trigger and starts the welding process; thus the current
circuit is closed.
– The capacitors of the stud welding unit are discharged. Because of the high
discharge current, the ignition tip evaporates explosion-like. The air gap between
welding element and workpiece is ionized (see figure, position 2), an arc is pro-
duced.
– The light arc melts the face of the welding element together with an area of the
workpiece of about the same dimension (see figure, position 3).
– Caused by the pressure spring, the welding element moves to the workpiece with
a speed of 0,5 to 1 m/s. The adjusted spring force controls the plunging speed of
the welding element.
– Higher plunging speed leads to shortened arc time and consequently to lower
welding energy with identical voltage setting.
– The light arc is cut as soon as the welding element touches the workpiece.
– Now the capacitors are short-circuited and the rest of the energy drains off (see
figure, position 4).
– The pressure spring continues to push the welding element into the weld pool.
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9 Welding Process
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