The Basics of Metalizing Paint
Basically, the process of administering specific metallic coating on top of a substrate is called metalizing paint or thermal spray coating; this is done to ensure that the material has added protection from physical wear or corrosion. Alloys, aluminium and zinc the metals typically used in the process. The metals are heated electronically, or with the traditional way of flaming, and are sprayed right on top of the substrate; by this time, the substrate has already gone through proper surface preparation.
Any metal or concrete can go under the process of metalizing as long as it can withstand the force of being cleaned and blasted before the actual application; it is required as the surface preparation. In metalizing paint, pure aluminium and zinc-aluminum alloy are incredibly effective marine coatings. The most common customers of thermal spray coatings include piers, bridges, locks and dams as well as other onshore and offshore facilities.
Why Decide to Get Metalizing Paint
Because of the fact that VOCs (volatile emission compounds) are not emitted during the metalizing process, in a lot of ways, it’s safe; VOCs come from specific solvents and metalizing paint contains no solvents. For the past couple of years, environmental regulations regarding VOC emissions have gradually become stricter; a lot of owners and painters and looking into options for limiting and decreasing their overall VOC output. Metalizing has increased in popularity due to the circumstance; apart from not emitting VOCs, metalizing projects also doesn’t require cure times. Assets that undergo metalizing can be quickly placed back in server as soon as the process is completed; for some it might not seem like all that big of a deal but for companies that lose revenue whenever there’s a downtime, it means a lot.
Whatever may be the conditions of the surroundings or the area, the metalizing process won’t be hindered; unlike other paint-based coatings, metalizing can be applied matter the level of humidity or temperature, all thanks to the metals and alloys. So as another advantage metalizing projects can be done whatever the seasons or whether might be, may it rains cats and dogs or the heat of the sun becomes too much and everything in between; the only real concern will be the safety of the workers.
Because of certain similarities, metalizing is usually compared to hot-dip galvanisation; metalizing has a few advantages over hot-dip galvanisation. First of all, metalizing makes use of a spray application so it’s an ideal process for the larger structures despite deconstruction being impossible. Substrates remain cooler under metalizing as compared with hot-dip galvanisation so there is no real risk of damage or distortion to the substrate.