It is possible to sort various nonmagnetic alloys of a metal by eddy current testing when:

• A. There is a unique range of permeability values for each alloy
• B. There is a unique range of conductivity values for each alloy
• C. The direction of induced eddy currents varies for each alloy
• D. The magnetic domains for each alloy are different

Answer: (B)

The ability to sort various nonmagnetic alloys of a metal using eddy current testing relies primarily on the unique range of conductivity values for each alloy. Eddy current testing operates on the principle that when an alternating electromagnetic field induces currents within a conductive material, the characteristics of these induced eddy currents—such as their magnitude and decay—are influenced by the material's electrical conductivity.

Nonmagnetic alloys can exhibit a range of conductivity values, meaning each alloy will respond differently to the induced eddy currents. This difference in response allows testing equipment to detect variations and sort the materials effectively. By analyzing the characteristics of the eddy currents produced when the testing equipment is applied, a technician can distinguish between different alloys based on their unique conductivity profiles.

The other options revolve around factors that are less applicable to the specific sorting capabilities of eddy currents in this context. While permeability and magnetic domains can influence eddy current behavior, they are typically not the defining characteristic used for sorting nonmagnetic alloys, as the primary concern in this case is conductivity. The direction of induced eddy currents varies primarily due to changes in geometry or electromagnetic fields rather than specific material properties, making it an insufficient criterion for sorting alloys effectively.