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These electrodes are low hydrogen for X-ray quality welds.
These electrodes are designed for optimum performance when used with an AC power source.
E6013 is excellent for joining misaligned pieces and welding thin metal under low heat. It deposits easily and smoothly.
These electrodes penetrate deeper into the base material for higher-quality welds than standard fast-deposit stick electrodes for steel.
Make welds quickly with these fast-melting electrodes.
Since they solidify quickly, these E6011 electrodes can be used for vertical and overhead welding.
The flux coating on these electrodes produces good stability, speed, and welding performance. They’re often used in the pipe welding industry and produce X-ray quality welds in all positions.
Weld stainless steel with these stick electrodes.
Made of 85% pure nickel, these electrodes join cast iron to itself, and to mild steel and stainless steel.
Join gray iron, ductile iron, malleable iron, and alloy cast iron to themselves, and to each other.
These nickel-free electrodes make nonmachinable welds. They’re often used on machine bases, furnace grates, and exhaust manifolds.
Weld aluminum 3003, 3004, 5052, 6061, and 6063 with these E4043 electrodes.
Weld copper, brass, and bronze with these electrodes.
Increase the wear resistance of your base metal, or restore a worn-down surface with these electrodes.
Weld nickel with these electrodes.
These electrodes cut as well as gouge aluminum, copper, stainless steel, and steel.
These electrodes have a flux coating that produces good stability, speed, and performance when cutting and chamfering steel and cast iron.
Protect your stick electrodes during transport.
For less waste, these holders grasp the electrode close to the end.
Keep stick electrodes in place.
With a cable you can disconnect to cut power, these holders prevent you from shocking yourself.
To avoid losing tension over time, the head on these holders doesn’t have a spring.
Speed up weld removal, edge preparation, gouging, and repairs when you use a holder with your carbon-gouging electrodes.
Weld stainless steel with these rods.
Weld steel together with these rods.
These rods create stronger welds than standard TIG welding rods for steel.
Make welds quickly with these fast-melting rods.
Weld aluminum with these rods.
Create 40% stronger welds than standard TIG welding rods for aluminum.
Often used in the aircraft and petrochemical industries, these welding rods join titanium alloys. They can weld in high-temperature applications that require chemical resistance.
Use these ERCuAl-A2 rods to join different metals, such as cast iron, steel, stainless steel, copper, and bronze.
Weld different steels together, such as steel and stainless steel. These rods also work with high-strength steel alloys.
Join copper, copper-silicon, and copper-zinc to themselves and to steel.
Repair and join cast iron.
Often used to repair pipe, these rods join nickel alloys to themselves and to stainless steel and steel.
Weld copper, brass, or bronze.
For smooth, consistent welds, insert TIG welding rods into the back of these feeders and turn the wheel with your finger to dispense.
Store, protect, and organize your TIG welding rods.
Weld acrylic plastic with these rods.
Join polystyrene with these rods.
These rods make stronger welds than standard gas welding rods for steel.
The pointed tip is best for tight areas or for a small weld.
The flat tip creates a larger weld and can be used when appearance is less important.
No need to add flux—these alloys have it built in.
Use these cadmium-free alloys with most metals in general purpose applications.
Use these alloys with most metals in general purpose applications.
Create stronger bonds than standard brazing alloys.
Join metal in inert atmospheres or vacuum conditions, such as furnace brazing.
Use these alloys on metal subject to corrosion.
Don't worry about adding flux when brazing corrosion resistant metals such as 300-series stainless steel—these alloys have it built in.
To fill in large gaps, these BAg-2 alloys melt into a thicker liquid than standard brazing alloys.
When melted, these alloys form a thin liquid that easily flows into smaller gaps than standard gap-filling brazing alloys.
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.
Join aluminum to copper and copper-based alloys, such as brass and bronze.
Flux is already built into these alloys, so there’s no need to add it when joining aluminum to copper.
Everything you need to start brazing most metals in general purpose applications.
Join aluminum to aluminum.
No need to add flux when brazing aluminum parts such as radiators, power tools, and castings—these alloys don’t require it.
Melting into a thick liquid, these BCuP-3 alloys fill in larger gaps than standard brazing alloys for copper.
These BCuP-5 alloys create stronger bonds than standard brazing alloys for copper.
Join copper tubing and tube fittings with these BCuP-5 alloys that create a stronger bond than standard brazing alloys for copper.
Join copper and copper alloys in general purpose applications.
Also known as trimetal brazing strips, these alloys have silver with nickel alloy sides and a copper core.
Use this flux with silver and copper-based brazing alloys to clean and prepare surfaces.
Use this flux with silver and copper-based brazing alloys to clean and prepare surfaces. It is boron modified and residue washes off with hot water.
Since this flux doesn’t contain any fluoride, it’s environmentally friendly and safe if it gets on your hands. Use it with silver- and copper-based brazing alloys to clean and prepare surfaces.
Clean and prepare surfaces for brazing jobs that require you to join aluminum.
Clean and prepare surfaces before joining aluminum to copper. With minimal residue, this flux does not require cleanup.
This solder meets NSF/ANSI Standard 61 for drinking water.
Even as temperatures approach absolute zero, this indium solder remains soft and malleable, allowing it to form an airtight seal between metal and certain non-metal materials..
This bismuth-tin solder has similar performance properties to lead solder, but is also safe for use in food-processing equipment and copper water pipes.
Composed of pure tin, this solder is safe for use with food service equipment.
The silver in this solder helps it resist vibration to form strong joints in HVAC systems. Since it doesn’t have a flux core, you can choose the flux that works best for your application.
The flux leaves minimal residue so there's no cleanup.
The flux residue easily washes away with water.
This solder keeps its strength in applications where vibration and frequent and extreme temperature changes occur, such as in water lines and refrigeration equipment.
Rosin flux is quick acting with strong cleaning action, but leaves residue that requires flux remover.
Acid flux has strong cleaning action, but leaves corrosive residue that washes away with water.
Use this solder for general purpose applications.
The high melting point prevents remelting when soldering successive joints with another solder.
Electrically conductive, this solder is best for electronics and electronics applications.
Rosin flux is quick acting with strong cleaning action, but it leaves residue that requires flux remover.
The flux leaves minimal residue so there's no need for cleanup.
Wash away flux residue from this solder with water.
The five flux cores allow fast soldering that uses less solder and transmits less heat to the joint. Rosin flux is quick acting with strong cleaning action but leaves residue that requires flux remover.
Without a flux core, this solder allows you to choose the flux that works best for your application.
Flux is not required for this solder to form strong joints.
Use this flux for plumbing applications.
This flux is the fastest to remove from plumbing pipelines.
This flux causes solder to flow in a thin film to create joints using minimal solder.
Protect the solder joint from corrosion with this flux paste.
Fortified with tin, this flux protects nondrinking water pipes from oxidation, especially under temperatures up to 600° F.
Solder aluminum to itself, copper, or brass.
Often used to solder aluminum to difficult-to-solder metal such as stainless steel and nickel, this flux works in applications up to 800° F.
Fill this dispenser with the flux of your choice to prepare electrical assemblies and printed circuit boards for soldering.
This flux has strong cleaning action and leaves residue that will not compromise the reliability of the joint.
With the strongest cleaning power, this flux is fully activated to clean and prepare electrical assemblies and printed circuit boards for soldering applications up to 840° F.
Providing the strongest cleaning power, this flux leaves residue that must be removed to ensure the reliability of the joint.
This flux has less cleaning action, but leaves the least amount of residue.
Prepare workpieces for low-temperature lead-free soldering. This flux leaves minimal residue, so there’s no cleanup required.
Prevent the flow of flux and metal to unwanted areas during brazing.
Use these brazing rings to weld tubing to an O-ring face seal adapter.
Snap one of these rings into an unthreaded pipe fitting and braze to unthreaded pipe for an extra-strong, leak-resistant connection.