Difference between revisions of "welding"

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[[Category:Engineering]]
 
[[Category:Engineering]]
;SCT:Short Circuit Transfer - feed wire touches molten metal pool, which kills the plasma arc. The surface tension of the molten pool pulls away from the feed wire, which restates the plasma arc. The cycle then repeats.
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;Globular: feed wire never touches the motion metal pool. The feed wire melts in the plasma above the molten poll. A single, large droplet of metal collects at the tip which eventually drops into the molten pool. This requires less power than Spray Transfer, but the quality and penetration is not as good. The droplet size is irregular and the position it falls into the molten pool will vary from the center.
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I like to weld.
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== Types of transfer of filler metal ==
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;Short Circuit Transfer (SCT): feed wire touches molten metal pool, which kills the plasma arc. The surface tension of the molten pool pulls away from the feed wire, which restarts the plasma arc. The cycle repeats.
 +
;Globular Transfer: feed wire never touches the molten metal pool. The feed wire melts in the plasma above the molten poll. A single, large droplet of metal collects at the tip which eventually drops into the molten pool. This requires less power than Spray Transfer, but the quality and penetration is not as good. The droplet size is irregular and the position it falls into the molten pool will vary from the center.
 
;Spray Transfer: feed wire never touches the molten metal pool. The feed wire melts in the plasma above the molten pool. The magnetic field pulls the droplets off the feed wire as a fine spray. Requires higher power giving more heat and a larger pool.
 
;Spray Transfer: feed wire never touches the molten metal pool. The feed wire melts in the plasma above the molten pool. The magnetic field pulls the droplets off the feed wire as a fine spray. Requires higher power giving more heat and a larger pool.
  
 
== welding stainless to mild steel or iron ==
 
== welding stainless to mild steel or iron ==
  
This is pretty easy. There is nothing special you need to do. Use regular Argon/CO2 70/30 shielding gas and steel wire. I do this mostly for welding fasteners to steel pipes. I've also filled holes in stainless containers (I didn't have pure Argon or stainless wire). The welds are not stainless, but they are good and strong. The hole filler welds in stainless containers were exposed to a constant wet, acidic environment and the welds did rust, but for the purpose it wasn't a big deal. The heat doesn't seem to depassivate the stainless steel.
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This is pretty easy. There is nothing special you need to do. Use regular Argon/CO2 75/25 (C-25) shielding gas and steel wire. I do this mostly for welding fasteners to steel pipes. I've also filled holes in stainless containers (I didn't have pure Argon or stainless wire). The welds are not stainless, but they are good and strong. The hole filler welds in stainless containers were exposed to a constant wet, acidic environment and the welds did rust, but for the purpose it wasn't a big deal. The heat doesn't seem to depassivate the stainless steel.
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== welding stainless with Argon/CO2 75/25 (C-25) shielding gas ==
  
== welding stainless with Argon/CO2 70/30 shielding gas ==
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For a home shop it can be expensive and a hassle to have to deal with different mixes of shielding gas. The most common mix of shielding gas in Argon/CO2 75/25 (sometimes 70/30). It's best suited for mild steel, but it works fine for stainless steel. For most applications you don't need Trimix (He/Ar/CO2) shielding gas.
  
For a home shop it can be expensive and a hassle to have to deal with different mixes of shielding gas. The most common mix of shielding gas in Argon/CO2 70/30. It's best suited for mild steel, but I've found that it works fine for stainless steel, too. It might not be the ''right'' gas mix (tri-mix He/Ar/CO2), but I have had no problem with the welding process or performance of the work piece afterwards.
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I have been using ER308L stainless steel wire.
  
I've had no trouble with 70/30 Argon/C02 shielding gas welding mild steel and stainless steel with stainless steel wire. The stainless on stainless welds came out great. Perhaps not "professional welding certification great", but great enough for me. The filler metal flowed smoothly with no spatter. It might even have been a little nicer than welding with mild steel wire.
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== welding aluminum ==
  
Professionals may tell you not to use 70/30 when welding stainless. The problem with getting advice from a professional is that sometimes the information is only useful for professional work. I'm not welding parachute harnesses or chemical storage tanks.
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I attempted to use Argon/C02 (C-25) shielding gas with aluminum. This attempt was a complete failure. It wouldn't even work in an emergency.
  
 
== websites with welding info  ==
 
== websites with welding info  ==

Latest revision as of 14:33, 20 March 2013


I like to weld.

Types of transfer of filler metal

Short Circuit Transfer (SCT)
feed wire touches molten metal pool, which kills the plasma arc. The surface tension of the molten pool pulls away from the feed wire, which restarts the plasma arc. The cycle repeats.
Globular Transfer
feed wire never touches the molten metal pool. The feed wire melts in the plasma above the molten poll. A single, large droplet of metal collects at the tip which eventually drops into the molten pool. This requires less power than Spray Transfer, but the quality and penetration is not as good. The droplet size is irregular and the position it falls into the molten pool will vary from the center.
Spray Transfer
feed wire never touches the molten metal pool. The feed wire melts in the plasma above the molten pool. The magnetic field pulls the droplets off the feed wire as a fine spray. Requires higher power giving more heat and a larger pool.

welding stainless to mild steel or iron

This is pretty easy. There is nothing special you need to do. Use regular Argon/CO2 75/25 (C-25) shielding gas and steel wire. I do this mostly for welding fasteners to steel pipes. I've also filled holes in stainless containers (I didn't have pure Argon or stainless wire). The welds are not stainless, but they are good and strong. The hole filler welds in stainless containers were exposed to a constant wet, acidic environment and the welds did rust, but for the purpose it wasn't a big deal. The heat doesn't seem to depassivate the stainless steel.

welding stainless with Argon/CO2 75/25 (C-25) shielding gas

For a home shop it can be expensive and a hassle to have to deal with different mixes of shielding gas. The most common mix of shielding gas in Argon/CO2 75/25 (sometimes 70/30). It's best suited for mild steel, but it works fine for stainless steel. For most applications you don't need Trimix (He/Ar/CO2) shielding gas.

I have been using ER308L stainless steel wire.

welding aluminum

I attempted to use Argon/C02 (C-25) shielding gas with aluminum. This attempt was a complete failure. It wouldn't even work in an emergency.

websites with welding info

http://www.weldreality.com/

http://weldingtipsandtricks.com/