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Offering high electrical conductivity and formability, 110 copper is 99.9% pure. Also known as ETP copper, it's often used in electrical applications, such as for bus bars and wire connectors, as well as for flashing, gaskets, and rivets.
This wire is polished to a mirror-like finish.
The tin coating provides a higher level of corrosion resistance and makes it easier to solder than Mirror-Like Multipurpose 110 Copper Wire.
An ultra-thin layer of silver makes these bars slower to tarnish than unplated copper to provide low electrical resistance at contact points over time.
Polished on one side to a reflective, mirror-like finish.
One side of these sheets has a brushed finish with grain lines running in one direction to mask fingerprints.
With 99.99% copper content, 101 copper has higher purity than 110 copper, resulting in superior electrical conductivity. It's commonly called OFE and OFHC copper. Use it in electrical applications, such as for coaxial cables and terminal lugs.
A thin layer of titanium is bonded to these copper rods for long life and dimensional stability in corrosive environments.
Also called tellurium copper, 145 copper contains tellurium, which makes it more machinable than all other copper while maintaining good corrosion resistance and high electrical conductivity. It’s often used for transformer and circuit-breaker terminals, welding torch tips, and fasteners.
With the addition of lead, this beryllium copper alloy forms small chips that won’t clog machines when it’s drilled or cut, so it is ideal for automated production lines.
182 copper is stronger, harder, and more wear resistant than 110 copper. Also known as RWMA Class 2 chromium copper, it's commonly used in resistance welding, for circuit-breaker parts, and for molds to make plastic parts.
Rated RWMA Class 4, 172 beryllium copper is the strongest beryllium copper alloy that is also electrically conductive and extremely wear resistant. It’s often used in inserts, die facings, and molds for plastic that need to withstand stress over repeated use.
Even though they have similar performance properties to beryllium copper, these copper rods don't require special machining techniques.
From fasteners to ferrules to fittings—machine these rods into parts that stand up to salt water. Made of copper nickel, also called cupro nickel, they resist rusting better than stainless steel.
Commonly used in water treatment plants, these tubes withstand salt water and can be used to make shims, ferrules, and washers.
Make plates for offshore drilling platforms, water boxes, valves, and other marine equipment that withstands salt water. Also known as cupro nickel, these copper nickel sheets resist rusting better than stainless steel.
Often used to make bearings and couplings in tough transportation, oil- and gas-drilling, and marine industries, these rods resist fatigue and corrosion. Also known as ToughMet™ 3 rods.
This copper wire is clad in nickel to provide excellent corrosion resistance at temperatures up to 1200° F while maintaining high electrical conductivity.
The addition of phosphorus makes 122 copper easier to weld and braze than 110 copper. It has excellent resistance to corrosion caused by water, soil, and weather, making it the go-to material for plumbing and underground applications.
These 17510 beryllium copper rods are not only conductive, but also non-sparking and non-magnetic, making them suitable for mines, oil rigs, and navigational tools.
In addition to being conductive, these 17510 beryllium copper bars are non-sparking and non-magnetic, so they’re used in mines and oil rigs, as well as for navigational tools.
Use these rods for electrodes in the electrical-discharge machining of dense material, such as tungsten carbide—they’re 75% tungsten for wear and arc-erosion resistance and 25% copper for electrical and thermal conductivity. They’re also known as Elkonite rods.
Made of 75% tungsten for wear and arc-erosion resistance and 25% copper for electrical and thermal conductivity, these bars work well for electrodes in the electrical-discharge machining of tungsten carbide and other dense material. They’re commonly known as Elkonite bars.