Design and fabrication companies throughout the country swear by the value that acrylic offers. It is lightweight. It is robust and offers higher levels of durability than glass. It is much stronger than glass as well. More importantly, fabricators will invariably find it easier to work with acrylic as opposed to glass. But, one of the most important traits that make acrylic easier to work with is its malleability. Shaping this thermoplastic material is fairly easy.
It is worth mentioning here that extruded acrylic is not as strong as its cell cast counterpart. As such, when workers machine it, it could end up cracking or splintering. As a result, if you’re offering high quality products, you would do well to use cell cast acrylic. Fabricators can make structures with no seams from acrylic as well. This is because chemical welding at the molecular level results in melting the seam into one piece of solid material. If your workers have welded and polished the seams well, they will usually remain concealed or invisible.
Despite the numerous benefits that it offers, acrylic has not yet succeeding in winning the hearts of all people. Many people continue to harbour incorrect impressions about the material. Some feel that it tends to yellow with age. Others feel that acrylic turns brittle and cracks over the passage of time. This might be true about some forms of plastic certainly. But, this doesn’t hold true for acrylic. If you look after it well, acrylic can look as good as new for several decades, not years. This is regardless of age or exposure to the elements. In some cases, acrylic might scratch easily. But, even this comes with a simple solution. All you need to do is to buff the acrylic to help it regain its original look.
However, acrylic does come with two demerits. Firstly, it is more expensive than glass. So, if you don’t have the finances to invest in this material, you will have to make do with other cheaper alternatives. Secondly, it is worth remembering that acrylic is a form of plastic. So, when exposed to a direct flame, it will melt and eventually burn. When plastic burns, it will release toxic fumes. This holds true for acrylic as well. This is why fabricators exercise various safety precautions when they cut acrylic sheets with power tools or bend them with the application of heat. But, these drawbacks are not as significant as the merits that acrylic offers. Not surprisingly, it is steadily but surely replacing other conventional materials across a diverse range of applications.