Thermal Sprayed Coatings

FISCHER offers durable measurement devices for coating thickness measurement of thermal sprayed aluminum (TSA). The aluminum coatings applied as corrosion protection by means of coating under insulation (CUI) possess a harsh, porous surface that quickly wears down conventional measurement devices. The customized measurement technology from FISCHER is therefore equipped with probes protected against abrasion.

Thermal Sprayed Coatings

Application notes

Determining the thickness of thermally sprayed aluminium (TSA) coatings on stainless steel

Ensuring the long-term protection of parts exposed to the extremely harsh conditions found in offshore environments requires specialised anti-corrosion coatings. For example, thermally sprayed aluminium (TSA) – used to protect stainless steel against corrosion even at high temperatures – can withstand marine influences for decades. However, to achieve such longevity, the TSA must have a certain coating thickness, making quality inspections mandatory.

Thermal spraying techniques are very effective for applying thick layers over large areas, as the hot coating materials are literally squirted onto the surface. Com-pared to other coating processes, such as electroplating or chemical vapour deposition, the rates of deposition are high: the aluminium is fed in wire form, molten and accelerated as micrometre-sized particles towards the substrate, forming a tough, protective casing.

The TSA coatings used in the oil and gas industry are typically between 250 and 500 µm; layers this thick can only be measured using the phase sensitive eddy current method. Controls are usually performed either right after the coating process or during maintenance to monitor the progress of corrosion and to determine whether parts should be re-coated.

FISCHER’s handheld PHASCOPE® PMP10 instrument, together with the probe ESD20TSA, is used for measuring TSA coatings in situ. Calibrating the probe is easily done, as the user is guided step-by-step through the instrument’s software: first measurements are taken in air and of the base material (e.g. stainless steel), then of the saturation-thick TSA coating (material depending, but ˃1 mm, on the same steel base); and finally, measurements are taken on real samples at the higher and lower ends of the expected range.

Fig.1: The portable PHASCOPE® PMP10 uses the phase-sensitive eddy current measurement principle to determine accurately the thickness of TSA coatings.

The thickness of thermally spayed aluminium (TSA) coatings – protecting offshore steel constructions and other parts exposed to corrosive salt water and harsh environmental conditions – can be measured easily and effectively using FISCHER’s PHASCOPE® PMP10 handheld instrument. For further information please contact your local FISCHER representative.

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Fischer Technology Inc.
Windsor/United States

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