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Posts Tagged ‘Aggregate’

The Importance of Proper Base and Subgrade Construction in Parking Lots

Friday, July 10th, 2015

Aggregate Base Subgrade Parking Lots

As Meghan Trainor sang, “I’m all ’bout that bass.” Well, here at PTG Enterprises, we are all about that base…and subgrade. It doesn’t matter how good the asphalt is if the aggregate base and subgrade are not properly prepared. These are quite literally the foundation of your parking lot. Without a strong foundation, your parking lot simply will not last. If something goes wrong with the foundation, the entire parking lot – or at least a section of the parking lot – could fail prematurely. (more…)

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How is Asphalt Made? Frequently Asked Questions Answered by My Pavement Guy

Friday, June 29th, 2012

You use asphalt every day. But have you ever stopped and wondered to yourself, “Hey, how is asphalt made?” If so, you are not alone. Despite being such an integral part of everyday life, few people know how asphalt is made.

So, without further ado, the process for making asphalt!

  1. Predose: A belt weigher is used to weigh the aggregate components of asphalt pavement. A belt weigher is used so that the materials can simultaneously be weighed and taken to the next step in the process.
  2. Drying: The asphalt components are dried in a rotary drying drum at roughly 300 degrees.
  3. Reweighing: Since drying can alter the weight of the aggregate, it has to be reweighed after drying.
  4. Storage: The dried components are then sifted and store in silos.
  5. Mixer: After being transferred to the mixer, binding element, or liquid asphalt is added to the aggregate. Both aggregate and binder are mixed thoroughly to form the paving material.
  6. Storage Round 2: After mixing, the asphalt is stored in a heated silo. If the asphalt mix cools it cannot be compacted.
  7. Application: The asphalt is transported by dump trucks to the job site for application.

Hopefully now you know a little bit more about asphalt than you did before!

If you have any further questions about Asphalt or if you have a project that you need completed, then contact PTG Enterprises aka My Pavement Guy today by calling 410-636-8777 or click here today! The asphalt experts here have managed hundreds of Maryland, DC, and Virginia pavement projects and have the experience you need.

Give me the opportunity to impress you. I can be your one stop ‘Pavement Guy,’ for any pavement project regardless of size or scope.

Check us out on Facebook and Twitter as well!

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Posted in General Asphalt Advice, Maryland Asphalt Contractor, Pavement News, The History of Asphalt Pavement | Comments Off on How is Asphalt Made? Frequently Asked Questions Answered by My Pavement Guy

How Does the Pavement Deteriorate?

Friday, June 8th, 2012

It has been estimated that ninety percent (90%) of asphalt roads in the United Sates have significant problems due to the deterioration of the base and sub-base material because of water infiltration.

Pavements where cracks have not been sealed, offer many routes for water entry into the base and sub-base courses. Water will penetrate through cracks that are over 1/8th to ¼ inch wide. Finer cracks also allow water infiltration into the pavement through the pumping action of the traffic; the surface water is pushed into the cracks when vehicles pass over the cracks. For cracks larger than ¼ inch, water flows in under gravity into the surface and the base course. Once water enters the base, the aggregate (limestone) absorb the water expand in volume and become soft, thus causing internal stress which accelerates the development of more and larger cracks.

There is no assurance that the pavement is not damaged if it looks fine on the surface. Not all deterioration will be visible. A study by Ontario’s Ministry of Transpiration, reported that on heavy traffic roads, half or more of the original asphalt pavement may disintegrate from the bottom up. In regions with extensive freeze-thaw cycles, with continuous thermal expansion and contraction of the pavement, the base and sub-base deteriorate much faster than in regions with moderate climates.

De-icing salts used in winter months further aggravate the problem. De-icing salt mixes with snow and forms a brine solution, which gets into the pavement and slightly melts ice in the base course. This produces even more thermal movement within the crack. The pavement weakened by a saturated base may experience localized failures when subjected to traffic. All cracked pavements will disintegrate and spall to various degrees depending upon the traffic volume or weight of the traffic load.

PTG is here for your pavement deteriorating needs. Please call us for a proposal request or visit our website at www.mypavementguy.com.

If you have any further questions about Pavement Deterioration or Asphalt Crack Sealing or have a project that you need completed, then contact PTG Enterprises aka My Pavement Guy today by calling 410-636-8777 or click here today! The asphalt experts here have managed hundreds of pavement projects and have the experience you need.

Give me the opportunity to impress you. I can be your one stop ‘Pavement Guy,’ for any pavement project regardless of size or scope.

Check us out on Facebook and Twitter as well!

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Posted in Asphalt Driveway Repair, Asphalt Maintenance, Crack Sealing, General Asphalt Advice, Highway Safety, Maryland Asphalt Contractor, Maryland Sealcoating Contractor, Pavement Maintenance, Pavement News | Comments Off on How Does the Pavement Deteriorate?

How Often Should You Sealcoat Your Asphalt?

Thursday, September 15th, 2011

There are several benefits to sealcoating, which we will address later. It does much more than just make your asphalt look like new.

When the liquid asphalt holding the aggregate together oxidizes, your asphalt becomes brittle and prone to cracking. Sealer helps to protect your parking lot or other asphalt surface from the harsh effects of nature.

So how often should you seal your asphalt? The general rule is every two years, but there are exceptions. For example, when an asphalt surface is new, it should be sealed the first two years (the first application doesn’t cover as well as the coats that follow). But be careful not to overdo it. When a surface is sealed too much, the sealer will build up and can begin to crack.

Your asphalt should look and feel like asphalt. If it starts to resemble a black skating rink, you’ve sealed to much.

The Benefits of Sealcoating Includes…

Beautifies Pavement
Regardless of the material that is chosen, the property manager or owner can expect instant curb appeal. As these photos show, the difference is quite remarkable. A fresh sealcoat will restore a fresh-black color to your lot and fresh paint will make it look new again.

Stops Weather Damage
Unsealed pavement allows water to penetrate in and through it. This leads to base erosion, freeze-thaw damage and ultimately pavement failure. sealcoating provides a protective barrier to stop water penetration.

The Asphalt Institute states: “The accumulation of moisture in pavement is probably the greatest cause of pavement distress.”

Prevents Oxidation
Asphalt pavement is made up of asphalt binder and little rocks called aggregate. As the pavement cures, the sun’s rays harden and dry out the asphalt binder and cause the surface to dry out. This causes the asphalt to become dry, brittle and break apart. This oxidation will cause accelerated raveling and erosion, and, if left untreated can reduce asphalt thickness by as much as half in five years.

If you have any questions, contact PTG Enterprises aka My Pavement Guy by calling 410-636-8777 or click here today!

Check us out on Facebook and Twitter as well!

Sources:

How Often Should I Sealcoat My Driveway? AsphaltAdvisor.com

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Identifying Pavement Defects

Thursday, July 14th, 2011

It is a well-known fact that water and asphalt do not mix. Harsh weather can cause asphalt to become distressed, crack, and eventually fail. This article from PaveManPro.com outlines the 13 ways in which weather adversely affects your pavement.

1.    Alligator Cracking: Alligator cracking is a load associated structural failure. The failure can be due to weakness in the surface, base or sub grade; a surface or base that is too thin; poor drainage or the combination of all three. It often starts in the wheel path as longitudinal cracking and ends up as alligator cracking after severe distress.

2.    Block Cracking: Block cracks look like large interconnected rectangles (roughly). Block cracking is not load-associated, but generally caused by shrinkage of the asphalt pavement due to an inability of asphalt binder to expand and contract with temperature cycles. This can be because the mix was mixed and placed too dry; Fine aggregate mix with low penetration asphalt & absorptive aggregates; poor choice of asphalt binder in the mix design; or aging dried out asphalt.

3.    Longitudinal (Linear) Cracking: Longitudinal cracking are cracks that are parallel to the pavements centerline or laydown direction. These can be a result of both pavement fatigue, reflective cracking, and/or poor joint construction. Joints are generally the least dense areas of a pavement.

4.    Transverse Cracking: Transverse cracks are single cracks perpendicular to the pavement’s centerline or laydown direction. Transverse cracks can be caused by reflective cracks from an underlying layer, daily temperature cycles, and poor construction due to improper operation of the paver.

5.    Edge Cracks: Edge Cracks travel along the inside edge of a pavement surface within one or two feet. The most common cause for this type of crack is poor drainage conditions and lack of support at the pavement edge. As a result underlying base materials settle and become weakened. Heavy vegetation along the pavement edge and heavy traffic can also be the instigator of edge cracking.

6.    Joint Reflection Cracks: These are cracks in a flexible pavement overlay of a rigid pavement (i.e., asphalt over concrete). They occur directly over the underlying rigid pavement joints. Joint reflection cracking does not include reflection cracks that occur away from an underlying joint or from any other type of base (e.g., cement or lime stabilized).

7.    Slippage Cracks: Slippage cracks are crescent-shaped cracks or tears in the surface layer(s) of asphalt where the new material has slipped over the underlying course. This problem is caused by a lack of bonding between layers. This is often because a tack coat was not used to develop a bond between the asphalt layers or because a prime coat was not used to bond the asphalt to the underlying stone base course. The lack of bond can be also caused by dirt, oil, or other contaminants preventing adhesion between the layers.

8.    Pot Holes: Small, bowl-shaped depressions in the pavement surface that penetrate all the way through the asphalt layer down to the base course. They generally have sharp edges and vertical sides near the top of the hole. Potholes are the result of moisture infiltration and usually the end result of untreated alligator cracking. As alligator cracking becomes severe, the interconnected cracks create small chunks of pavement, which can be dislodged as vehicles drive over them. The remaining hole after the pavement chunk is dislodged is called a pothole.

9.    Depressions (bird baths): Depressions are localized pavement surface areas with slightly lower elevations than the surrounding pavement. Depressions are very noticeable after a rain when they fill with water.

10.  Rutting: Ruts in asphalt pavements are channelized depressions in the wheel-tracks. Rutting results from consolidation or lateral movement of any of the pavement layers or the subgrade under traffic. It is caused by insufficient pavement thickness; lack of compaction of the asphalt, stone base or soil; weak asphalt mixes; or moisture infiltration.

11.  Shoving: Shoving is the formation of ripples across a pavement. This characteristic shape is why this type of distress is sometimes called wash-boarding. Shoving occurs at locations having severe horizontal stresses, such as intersections. It is typically caused by: excess asphalt; too much fine aggregate; rounded aggregate; too soft an asphalt; or a weak granular base.

12.  Upheaval: Upheaval is a localized upward movement in a pavement due to swelling of the subgrade. This can be due to expansive soils that swell due to moisture or frost heave (ice under the pavement).

13.  Raveling (very porous asphalt): Raveling is the on-going separation of aggregate particles in a pavement from the surface downward or from the edges inward. Usually, the fine aggregate wears away first and then leaves little “pock marks” on the pavement surface. As the erosion continues, larger and larger particles are broken free and the pavement soon has the rough and jagged appearance typical of surface erosion.  There are many reasons why raveling can occur, but one common cause is placing asphalt too late in the season. This is because the mixture usually lacks warm weather traffic which reduces pavement surface voids, further densification, and kneading of the asphalt mat. For this reason raveling is more common in the more northern regions(snow belt).

If you notice your pavement displaying any of the above problems, it is probably time to call a professional to patch your asphalt and prevent further damage. Do not put this off and let small cracks become big problems. It is far better to pay for a little patching now than to have to pay for a total re-paving down the road.

If you have any questions, contact PTG Enterprises aka My Pavement Guy by calling 410-636-8777 or click here

Check us out on Facebook and Twitter as well!

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Why Asphalt Pavement?

Thursday, June 30th, 2011

If you are thinking about having any surface re-paved – driveways, parking lots, roadways, airstrips – asphalt pavement is the way to go. Known for its durability and resilience, asphalt pavement is the best option for most all paved surfaces. If laid properly by a professional pavement company, asphalt pavement should last between 25 and 35 years. But what is asphalt pavement?

This article from PavemanPro.com explains.

Asphalt pavement is made up of a combination of stone (aggregate), sand, additives and liquid (petroleum) asphalt. This mixture is about 90% aggregate and sand and 10% asphalt. This combination forms a highly durable material that still maintains superior flexibility, allowing the surface to adapt to changing conditions produced by weather and the constantly changing surface beneath it. On top of its superior flexibility, asphalt pavement is also highly resistant to water, making it even more durable.

Steps involved in laying asphalt pavement:

1.    Preparation: Unless the asphalt is being laid over existing asphalt (overlay), it is the preparation of the ground beneath the pavement that is the most influential factor in the life of an asphalt pavement surface. Proper clearing, excavation, ground compaction and base materials require a great deal of expertise. Base materials can be compacted stone and/or an asphalt base with it’s own unique recipe. Regardless, without proper groundwork the life of the paved surface is greatly reduced.

2.    Spray a thin coat of liquid asphalt binder (hot tack) onto the surface using an asphalt distributor. This helps the newly paved surface create a greater bond between it and the surface beneath it.

3.    Lay the asphalt pavement using an asphalt paver and compacted using asphalt rollers.

4.    A minimum of 24 hours is required for the asphalt mix to solidify before it can be used. If enough time is not allowed for solidification, then it will result in poor a quality pavement.

5.    Asphalt maintenance – including cracksealing, pothole patching and sealcoating – can all be used to protect and extend the life of the already long life cycle of asphalt pavement.

If you have any questions or if you think asphalt pavement might be right for your next project, contact PTG Enterprises by calling 410-636-8777 or click here

Check us out on Facebook and Twitter as well!

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