About Infrared Asphalt Repair
Due to its ease of use, durability, and cost-effectiveness, asphalt has been a popular paving material for many decades. Asphalt problems can happen at anytime, whether you live in a residential or commercial property. You might need a solid pavement management program to address cracking, potholes, and exposed utility hole covers.
Your asphalt will last longer if you have a good pavement maintenance strategy in place. When your asphalt deteriorates, the infrared repair service is an efficient and cost-effective option.
What is Infrared Asphalt Repair?
he infrared repair process is something you've likely seen in action. This popular temporary paving option is often employed in business and residential settings.
Infrared asphalt repairs use infrared light to heat asphalt pavement until it becomes soft. It allows for the quick removal of asphalt that has failed. Next, the asphalt is mixed with new or recycled asphalt. A crew of two to three skilled craftsmen recycles the asphalt using one truck.
This method is becoming more popular for asphalt repairs because it is easy and environmentally friendly. There is also minimal downtime once the process is complete. Using this technology, you can fix problems like potholes, bumps in the road, and uneven surfaces in your driveway.
Infrared asphalt repairs are not the best solution for all asphalt problems. This process is much faster than traditional removal and replacement, so there's little disruption for you and your tenants. Infrared repairs are less costly than conventional repairs to potholes because of the savings. However, it is preferred by paving professionals for specific asphalt issues that you can fix over time.
One of the most significant benefits of using this method is the speed with which your pavement may be reopened to traffic when repairs are completed.
How Does Infrared Repair Work?
With infrared technology, damaged asphalt may be repaired by heating and replenishing the material before being blended with fresh asphalt and compacted. It is a step-by-step guide to the process of repairing asphalt.
- You must sweep the area clean of all debris and dry it thoroughly. It will ensure that the infrared repairs do not block the asphalt surface.
- The asphalt is heated to 325°F for approximately 5–10 minutes by an infrared heater placed over the area. This healing time can vary depending on the extent of the damage, the season, and the aggregate used.
- After heating, you can rake the repaired area, removing any loose or failed aggregate.
- Due to oxidization and age, the remaining aggregate is treated with a rejuvenator to replenish lost oils.
- Asphalt is mixed and added to new asphalt. It ensures that asphalt is graded at the correct level.
- A multi-ton vibratory roller or plate is used to condense the material after it has been combined, resulting in a smooth patch.
You may compact an asphalt patch without fear of it shrinking over time since the infrared system does not disturb the sub-base. The new patch is hardly undetectable until you look closely at the disagreeing color. On a bigger scale, the infrared method works just as effectively on utility cuts that span a whole road.
What Are the Benefits of Infrared Repair?
Infrared asphalt repair has many benefits. BaraCo Paving can help you reap the full benefits of infrared asphalt repairs. These benefits include:
Traditional asphalt resurfacing takes longer to repair. A typical 5' x 7' infrared repair takes about 20 minutes. The road can also be reopened immediately upon completion.
Due to the patch's thermal bonding with the surrounding surface, it eliminates the need to "tack-coat" the edges. There is no cold seam for water to penetrate and cause joint failure.
You can do infrared asphalt repairs with recycled asphalt, which reduces the need to purchase new asphalt materials. It means that there are fewer waste and handling costs.
The use of infrared technology can help a business save thousands of dollars. Infrared installation costs are competitive with traditional cold asphalt repairs.
Fewer Traffic Interruptions.
You can drive on the patch almost immediately. It usually takes 20-30 minutes for the surface to be ready for traffic. You can then use the road or paved surface again as soon as the repairs are complete.
Infrared rays can penetrate asphalt and allow for reclaiming. It is done without burning, scaling, or separating the asphalt from its aggregate.
What Is Infrared Asphalt Repair Used For?
Infrared asphalt repairs are a great solution, but they are not the best for all pavement problems. You can use the process to repair small areas of asphalt. It is where infrared asphalt repairs are most effective.
- Pothole and crack repair.
- Installation of speed bumps
- Handicap ramps
- Surfaces that are rough or uneven
- Paver seams
- Storm drains and maintenance holes
- High spots and bumps
- Trench repairs
How to Make Infrared Asphalt Repair a Success?
Infrared asphalt repairs can be a success if you take specific steps. These are the essential factors to ensure that your infrared asphalt repair is a success.
A minimal amount of water may evaporate during the infrared heating process. The heat and water can cause the asphalt to crack or deteriorate. For successful infrared asphalt repair, you must eliminate moisture.
Infrared asphalt repairs are difficult to do on windy days. Wind can cause infrared asphalt repairs to take longer, leading to poor results. Make sure not to repair it on a windy day.
Infrared asphalt repairs benefit from warm weather. Having a hot day encourages the healing process, which results in a smoother and more effective asphalt repair when using infrared technology.
Is it Worth It to Use Infrared Asphalt Repair?
Asphalt may survive up to twenty years if it is correctly cared for. Even if you take every precaution to maintain your asphalt driveway in good condition, problems might still develop. BaraCo Paving is here for you. We recommend the best option for your asphalt pavement care and maintenance. Contact us now to learn more about infrared asphalt repair.
About Four Corners, FL
The United States acquired the four corners region from Mexico after the end of the Mexican–American War in 1848. In 1863 Congress created the Arizona Territory from the western part of New Mexico Territory. The boundary was legally defined as a line running due south from the southwest corner of Colorado Territory, which had been created in 1861. This was an unusual act of Congress, which almost always defined the boundaries of new territories as lines of latitude or longitude, or following rivers, but seldom as extensions of other boundaries.
By defining one boundary as starting at the corner of another, Congress ensured the eventual creation of four states meeting at a point, regardless of the inevitable errors of boundary surveying. Due to a "standard" survey error of the time, the originally surveyed location of the "Four Corners" point was unintentionally located by its initial surveyor as being 1,821 feet (555 m) east of the original location actually specified by the US Congress in 1863. The area was first surveyed by the U.S. Government in 1868 as part of an effort to make Colorado Territory into a state, the first of the Four Corners states formed.
The first marker was placed at the originally surveyed and current spot in 1868. In 1925, some 57 years after Congress had first attempted to specify the spot, the problems surrounding the originally misplaced marker were brought up before the US Supreme Court. In order to amicably remedy this original surveying error, the US Supreme Court then redefined the point of the Four Corners, officially moving the Four Corners point roughly 1,800 feet (550 m) east, to where the original survey had first held it to be all along, and to where it remains to this day, duly marked. This initial survey error has resulted in some longstanding misunderstandings about the correct location of the Four Corners marker, some of which remain to this day. The first Navajo tribal government was established in 1923 to regulate an increasing number of oil exploration activities on Navajo land.
The Four Corners Monument is located at Coordinates: .
The Four Corners is part of the high Colorado Plateau. This makes it a center for weather systems, which stabilize on the plateau then proceed eastward through Colorado and into the central states. This weather system creates snow- and rainfall over the central United States.
Federally protected areas in the Four Corners area include Canyon de Chelly National Monument, Hovenweep National Monument, Mesa Verde National Park, and Canyons of the Ancients National Monument. Mountain Ranges in the Four Corners include Sleeping Ute Mountains, Abajo Mountains, and the Chuska Mountains.