The material thickness meter can reliably determine the thickness of, for example, plastics, paints and other coatings on ferrous and non-ferrous metals. With a measuring range of up to 5000 µm on ferrous metals, the material thickness meter covers a wide range of measuring tasks.

The car measuring device can reliably determine the thickness of, for example, plastics, paints and other coatings on ferrous and non-ferrous metals. With a measuring range of up to 5000 µm on ferrous metals, the car measuring device covers a wide range of measuring tasks.

The material tester can reliably determine the thickness of, for example, plastics, paints and other coatings on ferrous and non-ferrous metals. With a measuring range of up to 5000 µm on ferrous metals, the material tester covers a wide range of measuring tasks.

The paint gauge can reliably determine the thickness of, for example, plastics, paints and other coatings on ferrous and non-ferrous metals. With a measuring range of up to 5000 µm on ferrous metals, the paint gauge covers a wide range of measuring tasks.

The coating thickness gauge can reliably determine the thickness of, for example, plastics, paints and other coatings on ferrous and non-ferrous metals. With a measuring range of up to 5000 µm on ferrous metals, the coating thickness gauge covers a wide range of measuring tasks.

The automotive tester can reliably determine the thickness of, for example, plastics, paints and other coatings on ferrous and non-ferrous metals. With a measuring range of up to 5000 µm on ferrous metals, the automotive tester covers a wide range of measuring tasks.

The car measuring device can reliably determine the thickness of, for example, plastics, paints and other coatings on ferrous and non-ferrous metals. With a measuring range of up to 5000 µm on ferrous metals, the car measuring device covers a wide range of measuring tasks.

The paint gauge can reliably determine the thickness of, for example, plastics, paints and other coatings on ferrous and non-ferrous metals. With a measuring range of up to 5000 µm on ferrous metals, the paint gauge covers a wide range of measuring tasks.

The material tester can reliably determine the thickness of, for example, plastics, paints and other coatings on ferrous and non-ferrous metals. With a measuring range of up to 5000 µm on ferrous metals, the material tester covers a wide range of measuring tasks.

The material thickness meter can reliably determine the thickness of, for example, plastics, paints and other coatings on ferrous and non-ferrous metals. With a measuring range of up to 5000 µm on ferrous metals, the material thickness meter covers a wide range of measuring tasks.

The coating thickness gauge can reliably determine the thickness of, for example, plastics, paints and other coatings on ferrous and non-ferrous metals. With a measuring range of up to 5000 µm on ferrous metals, the coating thickness gauge covers a wide range of measuring tasks.

The automotive tester can reliably determine the thickness of, for example, plastics, paints and other coatings on ferrous and non-ferrous metals. With a measuring range of up to 5000 µm on ferrous metals, the automotive tester covers a wide range of measuring tasks.

The thickness meter works according to the magnetic inductive (ISO 2178) and the eddy current method (ISO 2360). These methods supported by the thickness meter are used for the non-destructive testing of materials.

The coating thickness automotive tester works according to the magnetic inductive (ISO 2178) and the eddy current method (ISO 2360). These methods supported by the automotive tester are used for the non-destructive testing of materials.

The thickness gauge works according to the magnetic inductive (ISO 2178) and the eddy current method (ISO 2360). These methods supported by the thickness gauge are used for the non-destructive testing of materials.

The surface tester works according to the magnetic inductive (ISO 2178) and the eddy current method (ISO 2360). These methods supported by the surface tester are used for the non-destructive testing of materials.

The IoT sensor works according to the magnetic inductive (ISO 2178) and the eddy current method (ISO 2360). These methods supported by the IoT sensor are used for the non-destructive testing of materials.

The coating thickness automotive tester works according to the magnetic inductive (ISO 2178) and the eddy current method (ISO 2360). These methods supported by the automotive tester are used for the non-destructive testing of materials.