Sensitivity of liquid metal gas bubble differential EMI detector

Electromagnetic induction (EMI) is known as a technique which is very sensitive to variation of electrical conductivity of materials. In this paper, we investigate capability of this method for detecting non-metallic inclusions, such as gas bubbles in liquid metal (GaInSn). We make both numerical simulation and experiment in order to build the sensitivity map for the interior of a rectangular column filled with liquid metal. The electromagnetic sensor consists of two differential coils. Such a detector rejects the basic signal and monitors the perturbations of electromagnetic field caused by heterogeneity of electrical conductivity. Theoretical results are used for validation of measured signals. The method is capable of detecting spherical target we used instead of real gas bubbles and produce a good agreement with numerical data.