Loading...
25
The wire approaches the work
piece and touches the work cre-
ating a short circuit between the
wire and the base metal, because
there is no space between the wire
and the base metal there is no arc
.
The wire cannot support all the
   
up and the wire becomes hot
and weak and begins to melt
     -
      
melting wire forming it into droplet
short circuit wire heating
magnetic

wire
The pinch causes the forming
droplet to separate and fall to-
wards the now creating weld pool.
An arc is created at the separation
of the droplet and the heat and force
      
into the weld pool. The heat of the
arc melts the end of the wire slightly
as it feeds towards the base metal
The wire feed speed overcomes
the heat of the arc and the wire
again approaches the work to
short circuit and repeat the cycle.
droplet
separates

the droplet
cycle
repeats
MIG (Metal Inert Gas) Welding
Short Circuit Transfer - Short circuit transfer is the most common used method whereby the wire
electrode is fed continuously down the welding torch through to and exiting the contact tip. The
wire touches the work piece and causes a short circuit the wire heats up and begins to form a
molten bead, the bead separates from the end of the wire and forms a droplet that is transferred
into the weld pool. This process is repeated about 100 times per second, making the arc appear
constant to the human eye.
Page 26
Instructions Manual for VIPE R 182 (K019E )
23/06/2017
Loading...
Terms of Use | Privacy Policy | DMCA Policy
2006-2020 Rsmanuals.com