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Join copper, copper-silicon, and copper-zinc to themselves and to steel.
Weld copper, brass, or bronze.
Weld copper, brass, and bronze with these electrodes.
Press these electrodes onto the tips of spot welders to change the size and shape of your weld.
Join copper, brass, or bronze.
Use these brazing alloys with a variety of metals.
No need to add flux—these alloys have it built in.
Don't worry about adding flux when brazing corrosion resistant metals such as 300-series stainless steel—these alloys have it built in.
Use these alloys on metal subject to corrosion.
Create stronger bonds than standard brazing alloys.
Join metal in inert atmospheres or vacuum conditions, such as furnace brazing.
Fill in tight gaps without needing to add flux before you braze—these alloys have flux built in. When melted, these alloys form a thin liquid that easily flows into smaller gaps than standard brazing alloys.
When melted, these alloys form a thin liquid that easily flows into smaller gaps than standard gap-filling brazing alloys.
To fill in large gaps, these BAg-2 alloys melt into a thicker liquid than standard brazing alloys.
Everything you need to start brazing most metals in general purpose applications.
Join aluminum to copper and copper-based alloys, such as brass and bronze.
Join copper and copper alloys in general purpose applications.
Join copper tubing and tube fittings with these BCuP-5 alloys that create a stronger bond than standard brazing alloys for copper.
These BCuP-5 alloys create stronger bonds than standard brazing alloys for copper.
Melting into a thick liquid, these BCuP-3 alloys fill in larger gaps than standard brazing alloys for copper.
Also known as trimetal brazing strips, these alloys have silver with nickel alloy sides and a copper core.
Snap one of these rings into an unthreaded pipe fitting and braze to unthreaded pipe for an extra-strong, leak-resistant connection.