Physical Properties and Characteristics

Did you know that copper-based metal “alloys” such as brass and bronze are actually Antimicrobial Copper alloys?

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Copper can be combined with other metals to create alloys such as brass and bronze, which have different aesthetic and engineering properties.  With over 500 alloys registered by the EPA, a wide array of color, form and finish options are available to satisfy diverse design needs. These continuously active building materials can be used to create strong, durable surfaces suitable for a range of applications.

Three main characteristics make Antimicrobial Copper a highly effective* touch surface material:

Superior physical properties

The right Antimicrobial Copper alloy can go head to head with steel in terms of strength and durability. In addition to their antimicrobial properties, Antimicrobial Copper alloys are:

  • Durable
  • Wear-resistant
  • Can stand up to harsh environments and chemicals
  • Can retain details and finish over time

Flexible manufacturing capabilities

Antimicrobial Copper alloys are extremely versatile and can be manufactured using a variety of conventional metal manufacturing processes.  Antimicrobial Copper can be:

  • Drawn
  • Machined
  • Cast
  • Joined
  • Bent

Competitive cost

Material cost doesn't drive final product price.  Manufacturing costs of Antimicrobial Copper are very competitive when comparing to other materials. Some of the contributing factors are:

  • Easily fabricated
  • More parts per minute
  • Longer tool life
  • Completely recyclable

For specific alloy property data, please visit the searchable database.

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*Laboratory testing shows that, when cleaned regularly, antimicrobial copper surfaces kill greater than 99.9% of the following bacteria within 2 hours of exposure: MRSA, VRE, Staphylococcus aureus, Enterobacter aerogenes, Pseudomonas aeruginosa, and E. coli O157:H7. Antimicrobial copper surfaces are a supplement to and not a substitute for standard infection control practices and have been shown to reduce microbial contamination, but do not necessarily prevent cross contamination or infections; users must continue to follow all current infection control practices.