What is a PosiTector 6000 used for?
The 6000-FJS is for measuring thick coatings on ferrous metal substrates. Ideal for measuring thick epoxies, rubbers, fireproofing and other thick protective coatings applied to steel.
What is a PosiTector?
The PosiTector 6000 FNDS probe measures the individual thicknesses of both the paint and the zinc layers in a duplex coating system with a single reading. Ideal for measuring non-magnetic coatings over steel and non-conductive coatings over non-ferrous metal substrates.
How is coating thickness measured?
Two measurements must be taken: one with the coating in place and the other without. The difference between the two readings, the height variation, is taken to be the coating thickness. On rough surfaces, micrometers measure coating thickness above the highest peak.
How do you use a PosiTector 200?
48 second suggested clip1:278:11How to Measure Rough Coating Thickness with the PosiTector 200YouTubeStart of suggested clipEnd of suggested clipOn lightly textured surfaces using more ultrasonic gel will reduce the number of times low resultsMoreOn lightly textured surfaces using more ultrasonic gel will reduce the number of times low results appear. But on heavily textured surfaces.
How do you use a Positector SST?
39 second suggested clip0:559:14How to Measure Soluble Salt Contamination with the PosiTector …YouTube
What is wet film thickness gauge?
Wet film thickness, or WFT, is the measured thickness of any liquid applied coating while it is still wet. A wet film thickness gauge should be used by the applicator, as the coating is being applied, to ensure that the average applied thickness is representative of the tested wet film thickness required to meet Code.
What is a PosiTector kit?
PosiTector® Inspection Kits contain a PosiTector gage body (Standard or Advanced) and 3 probes – coating thickness (Ferrous Only or Combination Ferrous Non-Ferrous), environmental dew point and surface profile, as well as accessories in a convenient hard shell carrying case.
How do you use a PosiTector SST?
What is the thickness of paint?
In the U.S. the thickness of paint is expressed in mils (one mil equals 1/1000 of inch). The rest of the world expresses coating thickness in microns (1 micron = 1 millionth of a meter and 25.4 microns = . 001” inch or 1 mil).
What is film thickness?
Film thickness is the depth of the coating applied. Film thickness can be broadly classified as: Dry film thickness – Dry film thickness (DFT) is the thickness of a coating as measured above the substrate after the coating has dried. This can consist of a single layer or multiple layers.
How do you charge a PosiTector?
Battery Type Selects the type of batteries used in the PosiTector body from a choice of “Alkaline”, “Lithium” or “NiMH” (Nickel-metal hydride rechargeable). If NiMH is selected, the PosiTector will trickle charge the batteries while connected via USB to a PC or optional AC charger.
How do you test for salt contamination?
60 second suggested clip0:315:06How to do the Bresle Patch Test using an Elcometer Bresle Test PatchYouTube
What is positector 6000?
The PosiTector 6000 hand-held, electronic instrument non-destructively measures the thickness of coatings on metals, quickly and accurately. It consists of a body (Standard or Advanced) and probe (Built-in or Separate).
What is positector 6000 coating thickness gauge?
The PosiTector 6000 coating thickness gauge is used to measure coating thickness on both ferrous and non-ferrous metals and other substrates.
Can the positector 6000 measure non-conductive coatings applied to non-ferrous metals?
‘Non-ferrous’ model probes (order code beginning in ‘N’ ex. NRS3) can measure non-conductive coatings applied to non-ferrous metals. Is the PosiTector 6000 affected by the surface roughness (profile) of the metal substrate below the coating?
Can the positector 6000 fhxs Xtreme measure on hot surfaces?
The PosiTector 6000 FHXS Xtreme is ideal for measuring coating thickness on hot and/or rough surfaces (250°C, 500°F maximum). All PosiTector 6000 probe are capable of measuring on hot surfaces. Standard probe models can operate at environments up to 50˚C (120˚F).