Top Five reasons to consider Liquid EPDM Rubber for Roofs

When searching for new roofing material, every domestic or commercial property owner prepares a list of material considerations. Some of the list items will be like, Installation cost, weather resistance, durability and maintenance expenses, etc. As the market is full of the roofing products offering these kinds of benefit, it becomes difficult to choose the best one. However, Liquid EPDM Rubber is the best among all the choices. Why Liquid EPDM Rubber considered the best choice for roofs, you can see the answer in the following picture;

Here are the top five reasons for using Liquid EPDM Rubber Roofing;

Fast and easy application:

One of the best reasons to choose EPDM Liquid Rubber is its one-coat, do-it-yourself application that means you can apply it on your own easily in a fraction of the time. However, you could hire professionals if you have a large area to cover.

Long lasting:

Liquid EPDM Rubber lasted four times longer than other competitive roofing materials available in the market. Its chemical structure and catalysts based system make it so unique. With proper maintenance, it has the life expectancy up to 20 years.

Cost effective roofing solution:
Liquid Rubber application can be less expensive compares to the other available roofing materials on the market. You can save product and labor cost because it is one coat application and most surfaces do not require any primer. Also, it lasts for decades that increase its cost efficiency.

Lower Maintenance expenses:

Maintaining a roof and repairing leaks can be the critical job for the most property owners but you don’t need to worry because Liquid EPDM Rubber waterproofing membranes are permanently flexible with a life expectancy of at least 20 years. You simply need a yearly inspection to ensure peace of mind.

Weather Resistance: 

Liquid EPDM Rubber is considered the environmentally safe alternative to traditional roofing methods on the market. It has powerful resistance to ultra-violet and ozone. It has the capability to resist the most extreme temps -40 F to 300 F.