When it comes to strength and durability, concrete tops the list. Concrete driveways are extremely durable and less prone to breakdown or rapid deterioration. While other materials may be unable to hold tons of weight from the largest SUVs, concrete doesn’t deform. Concrete doesn’t show any signs of movement even from prolonged parking.
Concrete Driveways Can Have A Long Life
If poured correctly, a concrete driveway can last for more than 30 years before showing signs of wear or tear. Asphalt or gravel driveways, however, require frequent maintenance and work to remain functional.
Enhanced Property Aesthetics
Concrete slabs can be designed to reflect most any shape, color, pattern, or even textures that one wishes to have. The wide variety of design patterns and possibilities that concrete presents makes it the perfect choice for cobblestone, brick, or even swirling patterns found in most homes and apartments. Having polished, colored, or textured concrete driveways can, therefore, help enhance your property’s curb appeal and aesthetics.
With concrete driveways lasting at least 30 years, concrete’s long lifespan makes it a highly cost efficient material to invest in. Homeowners are usually assured of a higher return in the long run as concrete driveways last longer. This is because concrete driveways help boost a property’s market value, which translates to higher, returns on investment.
As indicated earlier, concrete driveways can last considerably longer and are highly resistant to wear and tear especially if designed and installed well. Stains and other marks can usually be removed with soap and water. Tougher stains can be removed using a dry granular cleaner to scrub them off. Clearing snow off the concrete driveway is also very easy.
Concrete has many environmental benefits that many people know little about. For instance, a concrete driveway can be made using recyclable materials. The lighter concrete surface also reflects light which reduces the need for extra lighting at night. In addition, the driveway material can be recycled into granular fill or concrete aggregate at the end of its lifespan.