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    Coating Application Thickness Gauge

    Overview Products Knowledge Standards Terms
    The coating thickness gauge measures the thickness of coatings through contact or non-contact methods, utilizing principles such as electromagnetic induction, eddy current, or optics to detect differences between the substrate and the coating. It is used to monitor the uniformity of coatings on materials such as paints and paper, ensuring that product thickness meets standards.
    Selection
    When selecting a thickness gauge for coating applications, considerations include material type, thickness range, accuracy requirements, and environmental conditions. Priority should be given to matching the instrument’s measurement principle with the substrate characteristics, ensuring ease of operation and maintenance, and validating performance stability based on real-world application scenarios.
    Principle
    Substrate
    Range
    Precision
    Probe
    Application
    Accessories

    Terms

    Electrolytic Thickness Tester
    Paint film thickness gauge
    Coating Thickness Gauge
    Wet Film Comb Gauge

    Standards

    Incoming GB/T 46747-2025
    Rapid Determination of Heavy Metal Elements in Furniture Coatings by X-ray Fluorescence Spectrometry
    Active GB/T 45593-2025
    Fine ceramics—Determination of the abrasion resistance of coatings by micro-scale abrasion test
    Active GB/T 6843-1986
    Method for determining the coating melting point of photographic materials
    Active GB/T 13448-2019
    Test methods for prepainted steel sheet and strip
    Active GB/T 40359-2021
    Timekeeping instruments—Photoluminescent deposits—Test methods and requirements
    Active GB/T 42261-2022
    Metallic and other inorganic coatings—Test method of cyclic heating for thermal-barrier coatings under temperature gradient
    Active GB/T 44335-2024
    Fine ceramics—Methods of test for coatings—Determination of internal stress in ceramic coatings by application of the Stoney formula
    Active GB/T 7790-2008
    Paints and varnishes - Determination of resistance to cathodic disbonding of coatings exposed to sea water
    Active GB/T 41954-2022
    Paints and varnishes—On-site test methods on quality assessment for interior wall coatings
    Active GB/T 37361-2019
    Determination of the film thickness—Ultrasonic thickness gauge method
    Active GB/T 30794-2014
    Determination of polyvinylidene fluoride (PVDF) content of hot-melt fluorocarbon resin coatings (dry film)—Dropping of the melting temperature
    Active GB/T 30789.3-2014
    Paints and varnishes—Evaluation of degradation of coatings—Designation of quantity and size of defects ,and of intensity of uniform changes in appearance—Part 3: Assessment of degree of rusting
    Active GB/T 9266-2009
    Determination of scrub resistance of film of architectural paints and coatings
    Active GB/T 23987-2009
    Paints and varnishes - Exposure of coatings to artificial weathering - Exposure to fluorescent UV lamps and water
    Active GB/T 30707-2014
    Testing method on adhesion of fine ceramic coatings―Scratching

    Instruments

    YIBAI extended warranty 1 year Coating thickness Gauge extended warranty service
    YIBAI extended warranty 1 year Coating thickness Gauge extended warranty service

    Provide an additional one-year warranty period, which is applicable to Coating thickness Gauge pRoducts. It needs to be purchased simultaneously when purchasing the equipment and is not sold separately.

    $ 122.00
    LEEB F1 Probe magnetic Induction Coating thickness Gauge Probe Abrasion Resistance
    LEEB F1 Probe magnetic Induction Coating thickness Gauge Probe Abrasion Resistance

    Measurement range 0~ 1250μm, suitable for LEEB220 and LEEB222 Coating thickness Gauge, Abrasion Resistance is good, suitable for a variety of nonmagnetic Coating thickness detection.

    $ 157.00
    LANDTEK CTG-FBS F calibrated iron substrate CM8820 Coating thickness Gauge
    LANDTEK CTG-FBS F calibrated iron substrate CM8820 Coating thickness Gauge

    Dedicated to Coating thickness Gauge calibrating, ensure accurate thickness measurement, suitable for F type equipment, improve Reliability.

    $ 88.00
    OSP-13/400 coating Rod Coating coating bar 13 micron wet film thickness 300mm application width
    OSP-13/400 coating Rod Coating coating bar 13 micron wet film thickness 300mm application width

    Spreader 13 micron wet film thickness, application width up to 300mm, 304 stainless steel for durability and precise coating control.

    $ 178.00
    OSP-70/400 coating Rod 70μm wet film thickness 300mm application width
    OSP-70/400 coating Rod 70μm wet film thickness 300mm application width

    The formed pRoduction process ensures uniform coating, 304 stainless steel is durable and easy to clean, 70μm wet film thickness and 300mm application width meet various application needs.

    $ 178.00
    OSP-8/250 coating Rod formed coating Rod 8μm wet film thickness 250mm application width
    OSP-8/250 coating Rod formed coating Rod 8μm wet film thickness 250mm application width

    The formed pRoduction process ensures uniform coating, wet film thickness 8μm, application width 250mm, 304 stainless steel material is durable and easy to clean.

    $ 157.00
    OSP-150/60 coating Rod Applicator Rod 150 micron wet film thickness 60mm application width
    OSP-150/60 coating Rod Applicator Rod 150 micron wet film thickness 60mm application width

    Wet film thickness 150 microns, application width 60mm, 304 stainless steel material formed pRoduction process, suitable for coating performance testing.

    $ 120.00
    OSP-120/400 coating Rod formed wet film thickness 120μm application width 300mm
    OSP-120/400 coating Rod formed wet film thickness 120μm application width 300mm

    The formed process ensures uniform coating, wet film thickness 120μm, diaMeter 10mm, provides a variety of application width options, 304 stainless steel material is durable and easy to clean.

    $ 178.00
    YIBAI third party calibrating certificate Coating thickness Gauge calibrating service
    YIBAI third party calibrating certificate Coating thickness Gauge calibrating service

    Measurement accuracy with professional calibrating services for quality control and equipment maintenance, purchased with Coating thickness Gauge.

    $ 154.00
    OSP-64/400 coating Rod 64μm wet film thickness 300mm application width
    OSP-64/400 coating Rod 64μm wet film thickness 300mm application width

    The formed pRoduction process ensures uniform coating, 304 stainless steel is durable and easy to clean, wet film thickness 64μm, application width 300mm, suitable for accurate Spreader applications.

    $ 178.00
    OSP-20/400 coating Rod formed Applicator Rod wet film thickness 20μm application width 300mm
    OSP-20/400 coating Rod formed Applicator Rod wet film thickness 20μm application width 300mm

    Using formed pRoduction process, wet film thickness 20μm, application width 300mm, 304 stainless steel material to ensure durability and accurate coating effect.

    $ 178.00
    RK K303.10.5 bar wire-wound coating Rod wet film thickness 50μm application width 420mm
    RK K303.10.5 bar wire-wound coating Rod wet film thickness 50μm application width 420mm

    Made by wire-wound process, wet film thickness 50μm, application width 420mm, uniform groove is formed by precision stainless steel wire winding to achieve accurate control of Coating thickness.

    $ 199.00
    RK K101.10.6 bar wire-wound coating Rod wet film thickness 60μm application width 220mm
    RK K101.10.6 bar wire-wound coating Rod wet film thickness 60μm application width 220mm

    Using wire-wound process, wet film thickness 60μm, application width 220mm, through precision stainless steel wire winding to form a uniform groove, precise control of Coating thickness.

    $ 183.00
    RK K303.10.6 bar wire-wound coating Rod wet film thickness 60μm application width 420mm
    RK K303.10.6 bar wire-wound coating Rod wet film thickness 60μm application width 420mm

    Using wire-wound process, wet film thickness 60μm, application width 420mm, through precision stainless steel wire winding to form a uniform groove, can control the Coating thickness and ensure Repeatability.

    $ 199.00
    Defelsko PosiTector 6000 FT1 Coating thickness Gauge Portable platings thickness Gauge
    Defelsko PosiTector 6000 FT1 Coating thickness Gauge Portable platings thickness Gauge

    Measurement of nonmagnetic coatings on ferrous metals, thickness range 0-6000μm, accuracy +/- 3%, built-in Probe single-handed operation, Protection Rating IP65, 60 + readings per minute.

    $ 1022.00

    Articles

    Selection of Coating Thickness Gauges Using Magnetic and Eddy Current Methods on Different Substrates
    This article introduces two main methods for coating thickness gauges: the magnetic method and the eddy current method. When choosing a method, the key is to determine it based on the electromagnetic properties of the substrate.
    Application of Coating Thickness Gauges in Electroplating Thickness Detection
    Coating thickness gauges are used to measure the thickness of electroplated layers, primarily employing the electromagnetic induction method for measuring non-magnetic coatings on magnetic substrates, or the eddy current method for measuring insulating coatings on non-magnetic metal substrates.
    Ultrasonic thickness gauge for detecting thick coatings and composite coatings.
    Ultrasonic thickness gauges measure coating thickness using the principle of ultrasonic pulse reflection, calculating the result based on the propagation time of sound waves in the material and the speed of sound. When detecting thick coatings and composite coatings, challenges such as acoustic attenuation of the material, unknown sound speed, and signal recognition at multi-layer interfaces must be addressed.
    Coulometric Method Coating Thickness Gauge for Non-Destructive Measurement of Precious Metal Coatings
    The coulometric coating thickness gauge measures the thickness by calculating the amount of electricity required to dissolve the precious metal coating through the principle of electrolytic dissolution. This method is non-destructive to the overall sample, only forming tiny electrolytic spots.
    Comparison of Dual-Principle Instruments: Magnetic Induction vs. Eddy Current for Coating Thickness Measurement
    This article compares the principles of two coating thickness gauges. The choice of method depends on the substrate material: magnetic induction is used for magnetic metals, while eddy current is applied for non-magnetic metals.
    Eddy current thickness gauge detects coatings on non-ferrous metals.
    The eddy current thickness gauge operates on the principle of electromagnetic induction, generating an alternating magnetic field through the probe coil, which induces eddy currents on the surface of non-ferrous metal substrates.
    Magnetic thickness gauge measures the thickness of coatings on steel surfaces.
    Magnetic thickness gauges are used to measure the thickness of non-magnetic coatings on ferromagnetic substrates such as steel, based on the principles of magnetic induction or changes in magnetic attraction. Prior to use, calibration should be performed according to relevant standards, and attention should be paid to factors such as substrate characteristics, workpiece shape, and surface conditions that may affect the measurements.
    The principle of measuring dry film thickness with a coating thickness gauge
    Coating thickness gauges measure dry film thickness through non-destructive methods, with commonly used principles including electromagnetic induction, eddy current, and ultrasonic methods.
    Standard Operating Procedure for Zero Calibration and Substrate Calibration of Coating Thickness Gauges
    This article introduces two key calibration methods for coating thickness gauges: zero-point calibration and substrate calibration. During operation, it is important to ensure that the probe is perpendicular, pressure is applied evenly, and regular calibration and recording are maintained. These steps effectively enhance measurement accuracy and meet industry standard requirements.
    Differences in Measurement Principles Between Magnetic Method and Eddy Current Method for Coating Thickness Gauges
    Coating thickness gauges primarily utilize two measurement principles: magnetic method and eddy current method. The selection of the method should be based on the characteristics of the substrate material to ensure measurement accuracy.
    What is a Coating Thickness Gauge? A Complete Analysis of Its Principles, Usage, and Application Areas
    The article systematically elaborates on the working principles of two core measurement techniques, magnetic induction and eddy current, detailing the standard measurement process from calibration to data recording, and conducting an in-depth analysis of the influence of substrate characteristics, geometric shapes, and environmental factors on measurement accuracy.