The Key Elements of Great Iron
Clad Metals 101 and How Effective and Durable the Cladding Process Is
Clad metals are gaining in huge popularity compared to other forms of cladding. At the very least, metal clads provide the most aesthetic appeal not to mention the fact that clad metals are quite functional especially when it comes to protection against harsh weather conditions. 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. Metal cladding is gaining in huge popularity because it is very versatile compared to galvanization or electroplating.
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. Basically, cladding is designed to offer protection both on the interior and exterior surfaces.
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. Another attractive feature of clad metals is the ability to be used for roofing purposes. When different metals are bonded together, they complement each other’s weaknesses to create something that will be quite functional in the end. The versatility of copper, steel and aluminum is what makes the metal an attractive choice for cladding today.
One method of metal cladding is what the expert’s call overlay metal cladding. In order to create this type of clad metal, a layer of metal is bonded to an underlying layer by exerting extreme pressure and heat. This method of cladding can bond to create up to seven different layers to create a strong and durable outcome. The best thing about overlay cladding is the fact that it does not require any welding, fillers, or adhesives and is often a permanent solution that bonds metal together without the worry of any separation in future.
Contact cladding is also another method used for clad metals today. A perfect example of the application of contact metal cladding is when you want to reap the benefit of electrical conductivity and corrosive resistance nature of copper with the stretchy and tensile strength of steel. 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.