Clad Metals 101 and How Effective and Durable the Cladding Process Is
There are two main reasons why many people today prefer clad metals over other cladding materials. First and foremost, metal provides the most aesthetic appeal when it comes to cladding and secondly clad metals provide the best protection against weather infiltration, thus protecting the underlying materials. Metal cladding is the process of creating or forming a layer over a less durable base of metal to create an aesthetically appealing, durable, and functional plate. Most people today prefer clad metal over galvanized or electroplated metals thanks to the flexibility that comes with cladding a wide variety of metals that can be galvanized or electroplated.
Besides, it needs no mentioning that the process of cladding in and by itself creates quite durable effects compared to their galvanizing or plating counterparts. There are various forms of clad metals and processes, each coming with its own pros and cons depending on the projects at hand. generally, cladding is meant to offer the much needed extra protection exteriorly and interiorly in a building without compromising on the aesthetic appeal of the same.
As previously mentioned, clad metals are quite attractive, hence making them quite versatile and a favorite to most people looking to achieve aesthetic appeal as well in addition to functionality. Also worth mentioning is the fact that unlike other types of cladding materials, clad metals can also be ideal for roofing purposes in some circumstances. When different metals are bonded together, they complement each other’s weaknesses to create something that will be quite functional in the end. Copper, aluminum and steel are the most common metals you could find around.
One method of metal cladding is what the expert’s call overlay metal cladding. Ideally, this is where an expert will take a layer of metal and bond it onto an underlying layer. A very durable plate of up to 7 layers can be created through overlay metal cladding. Overlay cladding is quite popular as a way of clad metals as it doesn’t require any addition in terms of adhesives, any type of welding or fillers to create the permanent effect it boasts of.
The other common type of metal cladding is what is referred to as contact cladding. A perfect example of this is when one needs to create a wire that bears the stretchy strength of super steel without compromising on the corrosion resistance and electrical conductivity of the copper metal. By doing what is known as contact cladding, one is able to get the most out of each of the aforementioned metals thus taking advantage to use the clad metals at areas exposed to water and electricity at the same time.