The Coating Thickness Gauge for non-metal Substrates works according to the pulse-reflection principle of ultrasonic measurement and delivers precise results for a wide range of materials. The Coating Thickness Gauge is for measuring coating thicknesses on non-metallic substrates such as plastic parts, wood or glass as well as for determining the thickness of metallic base materials and coatings.

Numerous specialized digital probes can be connected to the Coating Thickness Gauge. This makes applications on particularly small openings, thick coatings and hard-to-reach or small measuring points possible without any problems. The magnetic induction method allows using the Coating Thickness Gauge measurements of paint, varnish, plastic, rubber, ceramics, galvanized coatings and galvanic coatings on steel. The eddy current method can be used to measure insulating layers such as paint, varnish, plastic or anodized coatings on non-ferrous metals.

Numerous specialized digital probes can be connected to the Coating Thickness Gauge. This makes applications on particularly small openings, thick coatings and hard-to-reach or small measuring points possible without any problems. The magnetic induction method for the Coating Thickness Gauge allows measurements of paint, varnish, plastic, rubber, ceramics, galvanized coatings and galvanic coatings on steel. The eddy current method can be used to measure insulating layers such as paint, varnish, plastic or anodized coatings on non-ferrous metals.

Numerous specialized digital probes can be connected to the Coating Thickness Gauge. This makes applications on particularly small openings, thick coatings and hard-to-reach or small measuring points possible without any problems. The magnetic induction method for this Coating Thickness Gauge allows measurements of paint, varnish, plastic, rubber, ceramics, galvanized coatings and galvanic coatings on steel. The eddy current method can be used to measure insulating layers such as paint, varnish, plastic or anodized coatings on non-ferrous metals.

Numerous specialized digital probes can be connected to the Coating Thickness Gauge. This makes applications on particularly small openings, thick coatings and hard-to-reach or small measuring points possible without any problems. The magnetic induction method of this Coating Thickness Gauge allows measurements of paint, varnish, plastic, rubber, ceramics, galvanized coatings and galvanic coatings on steel. The eddy current method can be used to measure insulating layers such as paint, varnish, plastic or anodized coatings on non-ferrous metals.

Numerous specialized digital probes can be connected to the Coating Thickness Gauge. This makes applications on particularly small openings, thick coatings and hard-to-reach or small measuring points possible without any problems. The magnetic induction method for this Coating Thickness Gauge allows measurements of paint, varnish, plastic, rubber, ceramics, galvanized coatings and galvanic coatings on steel. The eddy current method can be used to measure insulating layers such as paint, varnish, plastic or anodized coatings on non-ferrous metals.

Numerous specialized digital probes can be connected to the Coating Thickness Gauge. This makes applications on particularly small openings, thick coatings and hard-to-reach or small measuring points possible without any problems. The magnetic induction method for the Coating Thickness Gauge allows measurements of paint, varnish, plastic, rubber, ceramics, galvanized coatings and galvanic coatings on steel. The eddy current method can be used to measure insulating layers such as paint, varnish, plastic or anodized coatings on non-ferrous metals.

Numerous specialized digital probes can be connected to the Coating Thickness Gauge. This makes applications on particularly small openings, thick coatings and hard-to-reach or small measuring points possible without any problems. The magnetic induction method for the Coating Thickness Gauge allows measurements of paint, varnish, plastic, rubber, ceramics, galvanized coatings and galvanic coatings on steel. The eddy current method can be used to measure insulating layers such as paint, varnish, plastic or anodized coatings on non-ferrous metals.

Numerous specialized digital probes can be connected to the Coating Thickness Gauge. This makes applications on particularly small openings, thick coatings and hard-to-reach or small measuring points possible without any problems. The magnetic induction method using the Coating Thickness Gauge allows measurements of paint, varnish, plastic, rubber, ceramics, galvanized coatings and galvanic coatings on steel. The eddy current method can be used to measure insulating layers such as paint, varnish, plastic or anodized coatings on non-ferrous metals.

The Coating Thickness Gauge has a globally unique measuring probe that can be swiveled through 90°, allowing you to always carry out precise coating thickness measurements. The Coating Thickness Gauge with the compact, lightweight devices is barely larger than a measuring probe and is therefore ideal for on-site applications in hard-to-reach places.

The Coating Thickness Gauge works with a measuring probe that only requires a small contact surface and low contact pressure. The Coating Thickness Gauge is barely larger than a measuring probe and is particularly suitable for measuring thin layers on uneven or complex surfaces, such as tin cans.

The Coating Thickness Gauge has a globally unique measuring probe that can be swiveled through 90°, enabling precise coating thickness measurements at any time. Thanks to its compact design and low weight, the Coating Thickness Gauge is barely larger than a measuring probe and is therefore ideal for on-site applications in hard-to-reach places.