Cape Seal

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Application Sequence

The following is the general construction sequence of chip sealing:

  1. Calibrate the chip spreader and binder distributor.
  2. If required, a test strip should be placed in conditions similar to those that are expected to occur during the project.
  3. Conduct surface preparation using the guidelines listed in the preparation section.
  4. Apply the binder at the designed rate.
  5. Apply the aggregate at the designed rate.
  6. Roll the aggregate to embed it into the binder.
  7. Sweep off any loose aggregate.
  8. Open to traffic.
  9. After 72 hours, begin the slurry seal/micro surfacing process.
  10. Calibrate and set the paver for the Job Mix Formula as determined by the Mix Design process.
  11. If required, a test strip should be placed in conditions similar to those that are expected to occur during the project.
  12. Prepare the surfacing using surface preparation guidelines.
  13. Apply slurry seal/micro surfacing, closely adhering to guidelines.
  14. Open the pavement back to traffic when the slurry seal/micro surfacing has sufficiently cured.

Application Guidelines


Distributor Pre-spray Checklist

  • Determine the asphalt distributor velocity and pump speed
  • Delineate the distributor shot or limits
  • Construct paper joints
  • Clean and open nozzles
  • Ensure binder is at the correct application temperature
  • Check spray bar height

Application Rates

The application rate that the distributor will be spraying should be based on the binder application rate that was calculated in the chip seal design.  The spray pattern should be inspected right after takeoff to ensure the nozzles are spraying properly and the fan pattern is uniform.  If any streaking, ridging, puddling, or flowing of asphalt off the roadway surface is observed the spraying operation should be stopped immediately.

Remember, that the design application rates are a starting point and adjustments will need to be made as the surface conditions change throughout the project.

Construction Joints

Construction joints, such as transverse and longitudinal joints, are important to consider when spraying binder. Construction paper should be utilized when starting a shot or stopping a shot. Longitudinal joints should coincide with painted lines and should overlap 2” to 4” for uniform appearance.

Key Elements for Spraying Operations

There are four key components you need to consider before starting any job. You’ll also need to maintain them throughout the job.

  • Desired Application Rate (gal/yd2 or liters/m2)
  • Forward Ground Speed (ft/min or m/min)
  • Asphalt Pump Output (gal/min or liter/min)
  • Spray Bar Width (feet or meters)

It takes a combination of accurately set components to produce a correct shot rate. All of the components are working together simultaneously and if one of them changes it will make the others change. The components all working together provide a consistent shot rate regardless of speed or bar width changes.

It’s important that all your components are periodically checked and recalibrated to the manufacturer’s preset standards. If a major component is replaced, you need to follow the manufacturer’s installation and set-up procedures carefully.

Aggregate Operations

Stockpile Operation Checklist

  • Proper gradation - the front-end loader should penetrate the stockpile deep enough to have a full range of the aggregate gradation.  Segregation could take place while the aggregate is in the stockpile, where the finer particles tend to shift between the coarse particles making the stockpile show a greater content of coarse particles near the top and outside.
  • Contamination -  each load should be free of contamination. The loader operator should not scrape too close the bottom of the stockpile allowing grass or clay balls to be picked up with the aggregate.
  • Degradation - the loader should not allow the front wheels to roll over any of the stockpile. This could lead to larger pieces being crushed into smaller particles thus changing the aggregate gradation.
  • Full trucks - fill trucks to legal weight limit to maximize the volume of the trucks.
  • Excess Dust - if dust becomes a problem, it may be reduced by lightly sprinkling the stockpile with water. Only enough water should be used to reduce the dust.

Aggregate Spreading

After the stockpile is checked, the contractor should check to ensure that he/she has the required number of haul trucks needed to cover the asphalt shot and that they are in position before spreading starts. As the distributor begins its spraying operations, the spreader should move to within a few feet of the starting point. While the joint paper is being removed, the operator should align the spreader and make sure that there are enough discharge gates open to cover the entire shot of binder. As the spreader and truck move forward, the gates should be opened just before reaching the beginning of the binder shot. 

For best results, the aggregate should be applied on any type of asphalt binder as soon as possible. Visual checks should be conducted early in the spreading process to ensure that the aggregate “curtain” is uniform across the entire width of the discharge hopper. The “curtain” should be only one aggregate particle thick and light should be easily seen through the curtain. Any dark streams suggest a gate is open too wide. Any unusually light streak means not enough aggregate is being released. If the aggregate appears to be stacking as it is placed on the binder, it is being applied too heavily.  

Behind the spreader, the pavement surface should be checked for contaminants and streaking of thin or thick rows of aggregates. If there is evidence of thick and thin alternating streaks running transversely or looks like a ripple effect then it indicates that the spreader speed is too high.


Once the aggregate is placed, rolling should start immediately.  The first rollers are the haul trucks that transport the aggregate and will be backing up to connect to the chip spreader.  Speeds should be kept under 25 mph.

Rolling a chip seal is different than rolling asphalt.  Hot mix asphalt rolling is rearranging the aggregate particles in the mix to create density or compaction.  Chip seals are not compacted, rather the aggregate is simply repositioned to place the largest side of the aggregate in the binder.  This gives us the best chance of the aggregate sticking in the binder.  Chip seals need to be rolled directly behind the chip spreader while the binder is still hot and sticky in order to give us the best hold. 

There should be enough rollers to cover the entire mat width in one pass (one direction).  They should be in a staggered pattern making a minimum of five passes for asphalt cement and three passes for emulsions.  If rollers are unable to keep up with operations, the distributor should stop until rollers catch up or add more rollers.  The rolling pattern will depend on the number and types of rollers.  The rolling pattern should be checked to verify that aggregate orientation is correct and if it is not correct, then additional rolling will be required.

Sweeping Operations

Once rolling is complete, the next phase is sweeping.  Sweeping of newly constructed chip seals should be conducted preferably the next morning to remove excess chips.  Sweeping should begin at the centerline and sweep the excess aggregate toward the outside edge of the roadway.  It is important to note that joints should be swept during construction to ensure it is clean. 



If required, a test strip should be placed in conditions similar to those that are expected to occur during the project.


  • When the pavement is hot and dry, the pavement surface should be fogged with water ahead of the spreader box.
  • The rate of fog spray application is adjusted as the temperature, surface texture, humidity, and dryness of the pavement changes.
  • Avoid pooling of water ahead of the spreader box.


  • The slurry seal/micro surfacing must have an appropriate consistency to meet the pavement owner’s requirements of texture and application rate.
  • Application rates are effected by the gradation of the aggregate and the demand of the pavement surface. (For example, the rough surface texture of the chip seal will require more material to fill voids than a smooth, polished asphalt surface).
  • Ensure that the pavement is completely covered. No lumps or unmixed aggregate can be deposited on the pavement.
  • Drag marks are not acceptable.


  • Areas which cannot be accessed by the spreader box will need to be surfaced using hand squeegees. If necessary, the area to be hand worked should be lightly dampened prior to mix placement.
  • As much as possible, handwork should exhibit the same finish as that applied by the spreader box, and should be completed prior to final surfacing with the spreader box.
  • Spray the surface to be hand-worked lightly with water before applying the material.
  • Perform handwork first, so as to have as much area as possible applied by the spreader box.
  • Tar paper can be used at the beginning and end of a pull to provide a straight edge.


  • Joints must be clean, without excess buildup, uncovered areas, or unsightly appearance.
  • Longitudinal joints should be placed on lane lines.
  • Partial width passes should only be used when necessary and should not be the last pass of any paved area.
  • Overlaps must be kept to a minimum, as they will be noticeable upon completion of the project.
  • Transverse joints are to be butt joints (not overlapped) to avoid creating a bump in the surface. The end of the first pass will be cut clean and square with a flat shovel, and the second pass will start with the primary strikeoff at this same point.
  • The aesthetics of the project will improve greatly when lines at curbs, shoulders and intersections are kept straight.
  • If necessary, a suitable material will be used to mask off the end of streets to provide straight lines.
  • A variable width spreader box eliminates the need for half passes.
  • Using tar paper (roofing felt) to end the first pass eliminates handwork.
  • Pulling a spreader box until empty will cause problem in the slurry seal/micro surfacing application in the future.


  • The slurry seal/micro surfacing should be sufficiently stable, so that the mixture doesn’t prematurely break in the spreader box.
  • The mixture should be homogeneous during and following mixing and spreading.
  • It should be free of excess liquids, which create segregation of the aggregate.
  • Do not spray additional water into the spreader box.
  • The mixture of the mat must be consistent, not too wet.
  • The texture should reveal larger stones in the mix.

For further information, please review ISSA’s web-based courses on micro surfacing.