Straight Edges for Checking Runway Smoothness

Precision Straight Edges

for Checking Airport Pavement Smoothness

Rough Pavement is Hazardous to Aircraft

The evolution of the straight edge for testing pavement has roots in highway construction where smoothness affects the ride quality. Cars have suspension systems that dampen road roughness. Aircraft suspension systems are not designed to absorb pavement roughness but to absorb the energy of landing impact. This means that most of the available strut stroke is already used up when the aircraft is on the ground.

Airplane landing on runway

Runway pavement surface irregularities may cause vibrations in the cockpit that make controls difficult to manipulate. Pavement profile irregularities can also cause increased stress and premature failure of critical airplane components. Uneven pavement can reduce braking capacity as the airplane responds to vertical acceleration.

FAA Pavement Roughness Specifications

The FAA advisory circular AC 150/5370-10E of 9/30/2009 specifies the "Standards for Construction of Airports" for both asphalt and concrete pavements. The final pavement acceptance criteria are listed below:

Bituminous Pavements: P-403 page 20 (4) Smoothness - "The final surface shall be free from roller marks. The finished surfaces of each course of the pavement, except the finished surface of the final surface course, shall not vary more than 3/8 inch when evaluated with a 16 foot straightedge. The finished surface of the final surface course shall not vary more than 1/4 inch when evaluated with a 16 foot straightedge".

Concrete Pavement: P-501 page 29 (3) Smoothness - "As soon as the concrete has hardened sufficiently, the pavement surface shall be tested with a 16-foot (5 m) straightedge or other specified device. Surface smoothness deviations shall not exceed 1/4 inch (6 mm) from a 16-foot (5 m) straightedge placed in any direction, including placement along and spanning any pavement joint edge".

FAA Smoothness < 1/4 inch in 16 foot

The FAA expects both newly constructed or rehabilitated pavement to meet the above standard. The ICAO Tolerable Limit is 3-mm (0.12-inch) in 3-meters (9.8 feet). There are also a few regional specifications that hold deviation as low as 1/8 inch in 16-foot for paving and seal coating.

Military Airfield Pavement Roughness Specifications

The US Air Force specifies pavement roughness in Engineering Technical Letter (ETL) 09-2: "Contingency Airfield Pavement Specifications". The procedure for completed asphalt paving smoothness is standard is indicated in section 410.4.9. Smoothness.

"After completion of the final rolling of a lot, the inspector will test the final wearing surface with a 3.6-meter [12-foot] straightedge. Take measurements parallel to and across all joints at equal distances along the joint not to exceed 7.6 meters [25 feet]. Record locations that fail the straightedge test. Use the tolerance criteria in Table 410-4". This table shows a specification as low as 1/8 inch in 12-feet for runways.
F22 Raptor on Runway

USAF Smoothness < 1/8 inch in 12 foot

Straight Edges are a Better Choice than Profilers

The FAA allows several other electronic systems that use various types of profilers that use indicators to simulate the results of the 16-foot straight edge. Per FAA specifications from - AC 150/5370-10E P-501-29 "Use of the profilograph to measure pavement smoothness is optional and will be approved on a case-by-case basis. Use of a profilometer may not be practical for all construction."

Since these profilers are significantly much more expensive than a typical 16-foot straight edge, they often claim to reduce costs over the long term. Using a physical straight edge is also sometimes criticized as being manpower intensive because profilers are faster. However the projected savings of profiling devices can quickly disappear if your customer argues over the accuracy of the test results. The statistical data and graphical displays from a profiler are often not always so easy for many customers to understand. The disputes created by these magical black boxes on wheels may cause additional costs when more meetings, negotiations, travel expenses, re-testing, penalties, and delayed payments are considered.
No Profilers Allowed

Roughness is so much easier for customers to see when using a straight edge by just looking at the gap between straight edge and the runway. The gap can easily be measured by using shim gauges marked with the size and recorded. The straight edge test results are very accurate and hard to dispute unless the straight edge used was not qualified.

To insure repeatable results in this hostile environment, profilers also require careful use or frequent maintenance. If normal industrial standards were applied to profilers, they would also require periodic calibration to a NIST reference. The complexity of these profiler systems usually require highly trained personnel where a minimum wage employee could operate a straight edge. Even the slowest worker using a straight edge, can usually keep up with the fastest paving machine.

Screeds are not Good Straight Edges

The majority of asphalt and concrete contractors often use a "Screed" as a straight edge to check paved surfaces for roughness. Screeds were designed to work concrete and should not be used as a straight edge because their straightness is unknown. New screeds taken out of the box failed to meet any reasonable quality standard for a measurement tool.

Screed and concrete work After checking (4) new 16-foot aluminum screeds from two leading suppliers, each were found to have major flatness errors by as much as 0.069-inch. The screeds were also twisted and deflected by as much as 0.056-inch when end supported. These inspection results show that a contractor using a typical screed to check pavement roughness could be using up almost half of the 0.25-inch tolerance specified by the FAA with the combined 0.12-inch screed error. Good pavement could be rejected by a customer because a contractor used one of these typical screeds for runway inspection.

Straight Edge Specifications for Runway Inspection

Have you ever noticed how most other companies never mention what sort of flatness and straightness quality they supply with their straight edges? It's also amazing that neither the FAA nor USAF specifies any edge quality or certification requirement for straight edges. It should be very important, at least to the paving contractor, before they are stuck with a batch of rejected pavement.

The USAF indicates the following 12-foot straight edge requirements in ETL09-2 section 220.3.2.6. "Straightedges shall be constructed of aluminum or other lightweight metal and shall have blades of box or box-girder cross section with flat bottom reinforced to ensure rigidity and accuracy. Straightedges shall have handles to facilitate movement on pavement". The PaveFlat units are constructed from an aluminum box extrusion that includes grips. The FAA does not specify any type of straight edge design beyond the 16-foot length required in AC 150/5370-10E.

The FAA does however require calibration standards for other aircraft inspection tooling as specified in AC 145-9 (4-12, p.53) that include procedures and records required for repair stations. Although these FAA standards were not specifically designed for runway maintenance tooling, they embody good practices that are common to ISO/DIN standards found in industry.

Europe has specified its very own standard for straight edges that also requires the use of a special taper gauge capable of measuring up to 1-inch of runway surface deviation under the straight edge. European Standard EN 13036-7 of August 2003 for Road and airfield surface characteristics test methods includes a specific requirement for 3-meter long straight edges: "The straightedge shall be (3,000 ± 3) mm and of rigid construction such that when suspended at the end points its measurement edge shall not deviate from a true plane by more than ±0,5 mm at any point. The straightedge shall also be straight along its length and shall not deviate from straight by more than 1,5 mm. The horizontal width of the measurement edge shall be (25 ± 1)" mm." This specified EN13036-7 flatness tolerance of ±0.5 mm (±.019-inch) allows a permissible error of 0.038-inch which is over 30% of the 1/8-inch runway surface smoothness deviation requirement.

It seems more reasonable that a typical industrial gauge specification of 10% of the tolerance range would be an appropriate standard for the runway straight edge quality. Using this criterion, the standard flatness and straightness tolerance for a FAA 16-foot straight edge should be 1/4-inch. Since military and some regional or international specifications use a tighter 1/8-inch standard for checking pavement, a reasonable tolerance for straightness and flatness would keep deviation at less than 0.012-inch. To meet normal industrial gauge standards, the straight edge should be traceable to a NIST surface, include a serial number, and certification. This precision straight edge should be re-inspected at specified intervals to assure that it has not been damaged and record or fix any errors found.

Straight Edge Tolerance = 0.012" total error

PaveFlat Straight Edges are Designed for Contractor Use

A straight edge used for checking pavement must have a wide enough base to stand on the edge without out falling over. The unit must not rust or be susceptible to damage with normal use.

The straight edge must be light enough for one person to lift and handle. Steel is too heavy because a 16-foot x 4-inch x 1-inch straight edge weighs 217 pounds and certainly exceeds NIOSH lifting limitations as published in 94-110.

Aluminum extruded alloys offer light weight, but the extrusion process can twist the beam and the soft edge nicks easily. Bonding a continuous stainless steel edge to an aluminum box extrusion substrate provides durable non-rusting working edge. Adding location pads to the opposite side allows precision grinding each side to remove any surface errors on the useable edge. Handholds are then bonded to the sides of straight edge to make the unit easy to grip.
PaveFlat Straight Edge - End View

Straight Edge Serial Number Tag Next the straight edge is checked against a precision NIST qualified granite surface plate using our inspection procedures. The flatness and straightness measurement is recorded on the Inspection Certificate that references a unique serial number marked on the unit. If you ever suspect that your straight edge has been damaged, we can also recertify or repair your straight edge.

PaveFlat Straight Edge on Runway

PaveFlat-16 straight edge for checking pavement smoothness

Overall Size: 16-feet x 4.1-inch x 1-inch
Stainless Working Edge: 192-inches x 1-inches
Straight Edge Weight: 33 lbs.
Flatness and Straightness: 0.012-inch maximum deviation over 192 inches
Complies with FAA advisory circular AC 150/5370-10E of September 2009
Serial number marked on unit for traceability
Certificate of inspection included
Cost: $2,500 each.
Freight additional - FOB Springfield, OH
Shipment 1 to 2 weeks ARO

PaveFlat-12 straight edge for checking pavement smoothness

Overall Size: 12-feet x 4.1-inch x 1-inch
Stainless Working Edge: 144-inches x 1-inch
Straight Edge Weight: 25 lbs.
Flatness and Straightness: 0.012-inch maximum deviation over 144 inches
Complies with USAF specifiation ETL09-2 section 220.3.2.6 of March 2009
Serial number marked on unit for traceability
Certificate of inspection included
Cost: $2,250 each.
Freight additional - FOB Springfield, OH
Shipment 1 to 2 weeks ARO

PaveFlat-10 straight edge for checking pavement smoothness

Overall Size: 10-feet x 4.1-inch x 1-inch
Stainless Working Edge: 120-inches x 1-inch
Straight Edge Weight: 21 lbs.
Flatness and Straightness: 0.012-inch maximum deviation over 120 inches
Serial number marked on unit for traceability
Certificate of inspection included
Cost: $2,125 each.
Freight additional - FOB Springfield, OH
Shipment 1 to 2 weeks ARO

PaveFlat-3M straight edge for checking pavement smoothness

Overall Size: 3000 mm x 104 mm x 25 mm
Stainless Working Edge: 118.1-inches x 1-inch
Straight Edge Weight: 21 lbs.
Flatness and Straightness: ± 0.019-inch maximum deviation over 118.1-inches
Complies with EN 13036-7 specification of August 2003
Serial number marked on unit for traceability
Certificate of inspection included
Cost: $2,500 each.
Freight additional - FOB Springfield, OH
Shipment 1 to 2 weeks ARO

Shim Gauge

Set of 5 pcs of - 12 x 1 x 1/16" with top cover
Simple feeler type gauge
Made from composite 1/16" thick plastic strips
Weight: 0.2 lbs.
Used to quantify amount of runway deviation
Cost $125.00 each
FOB Springfield, OH
Shipment: 1 week ARO

PaveFlat Feeler Gauge

Taper Gauge

Taper gauge per EN 13036-7
Marked with 1 mm and 10 mm increments
Made from Aluminum
Weight: 0.8 lbs.
Used to quantify amount of runway deviation
Cost $500.00 each
FOB Springfield, OH
Shipment: 1 to 2 weeks ARO

We Acccept Credit Cards
We accept Credit Cards

PaveFlat For More Information Contact:

Mike Petsch & Associates, Inc.
Phone (937)438-8031

P.O. Box 684

Tipp City, OH 45371

Email donpetsch@gmail.com

PaveFlat.com

	Precision Straight Edges
	for Checking Airport Pavement Smoothness


Rough Pavement is Hazardous to Aircraft
The evolution of the straight edge for testing pavement has roots in highway construction where smoothness affects the ride quality. Cars have suspension systems that dampen road roughness. Aircraft suspension systems are not designed to absorb pavement roughness but to absorb the energy of landing impact. This means that most of the available strut stroke is already used up when the aircraft is on the ground.




Runway pavement surface irregularities may cause vibrations in the cockpit that make controls difficult to manipulate. Pavement profile irregularities can also cause increased stress and premature failure of critical airplane components. Uneven pavement can reduce braking capacity as the airplane responds to vertical acceleration.





FAA Pavement Roughness Specifications
The FAA advisory circular AC 150/5370-10E of 9/30/2009 specifies the "Standards for Construction of Airports" for both asphalt and concrete pavements. The final pavement acceptance criteria are listed below: Bituminous Pavements: P-403 page 20 (4) Smoothness - "The final surface shall be free from roller marks. The finished surfaces of each course of the pavement, except the finished surface of the final surface course, shall not vary more than 3/8 inch when evaluated with a 16 foot straightedge. The finished surface of the final surface course shall not vary more than 1/4 inch when evaluated with a 16 foot straightedge". Concrete Pavement: P-501 page 29 (3) Smoothness - "As soon as the concrete has hardened sufficiently, the pavement surface shall be tested with a 16-foot (5 m) straightedge or other specified device. Surface smoothness deviations shall not exceed 1/4 inch (6 mm) from a 16-foot (5 m) straightedge placed in any direction, including placement along and spanning any pavement joint edge".








FAA Smoothness < 1/4 inch in 16 foot

The FAA expects both newly constructed or rehabilitated pavement to meet the above standard. The ICAO Tolerable Limit is 3-mm (0.12-inch) in 3-meters (9.8 feet). There are also a few regional specifications that hold deviation as low as 1/8 inch in 16-foot for paving and seal coating.

Military Airfield Pavement Roughness Specifications
The US Air Force specifies pavement roughness in Engineering Technical Letter (ETL) 09-2: "Contingency Airfield Pavement Specifications". The procedure for completed asphalt paving smoothness is standard is indicated in section 410.4.9. Smoothness.
"After completion of the final rolling of a lot, the inspector will test the final wearing surface with a 3.6-meter [12-foot] straightedge. Take measurements parallel to and across all joints at equal distances along the joint not to exceed 7.6 meters [25 feet]. Record locations that fail the straightedge test. Use the tolerance criteria in Table 410-4". This table shows a specification as low as 1/8 inch in 12-feet for runways.

USAF Smoothness < 1/8 inch in 12 foot

Straight Edges are a Better Choice than Profilers
The FAA allows several other electronic systems that use various types of profilers that use indicators to simulate the results of the 16-foot straight edge. Per FAA specifications from - AC 150/5370-10E P-501-29 "Use of the profilograph to measure pavement smoothness is optional and will be approved on a case-by-case basis. Use of a profilometer may not be practical for all construction."




Since these profilers are significantly much more expensive than a typical 16-foot straight edge, they often claim to reduce costs over the long term. Using a physical straight edge is also sometimes criticized as being manpower intensive because profilers are faster. However the projected savings of profiling devices can quickly disappear if your customer argues over the accuracy of the test results. The statistical data and graphical displays from a profiler are often not always so easy for many customers to understand. The disputes created by these magical black boxes on wheels may cause additional costs when more meetings, negotiations, travel expenses, re-testing, penalties, and delayed payments are considered.

Roughness is so much easier for customers to see when using a straight edge by just looking at the gap between straight edge and the runway. The gap can easily be measured by using shim gauges marked with the size and recorded. The straight edge test results are very accurate and hard to dispute unless the straight edge used was not qualified.

To insure repeatable results in this hostile environment, profilers also require careful use or frequent maintenance. If normal industrial standards were applied to profilers, they would also require periodic calibration to a NIST reference. The complexity of these profiler systems usually require highly trained personnel where a minimum wage employee could operate a straight edge. Even the slowest worker using a straight edge, can usually keep up with the fastest paving machine.

Screeds are not Good Straight Edges
The majority of asphalt and concrete contractors often use a "Screed" as a straight edge to check paved surfaces for roughness. Screeds were designed to work concrete and should not be used as a straight edge because their straightness is unknown. New screeds taken out of the box failed to meet any reasonable quality standard for a measurement tool.


		After checking (4) new 16-foot aluminum screeds from two leading suppliers, each were found to have major flatness errors by as much as 0.069-inch. The screeds were also twisted and deflected by as much as 0.056-inch when end supported. These inspection results show that a contractor using a typical screed to check pavement roughness could be using up almost half of the 0.25-inch tolerance specified by the FAA with the combined 0.12-inch screed error. Good pavement could be rejected by a customer because a contractor used one of these typical screeds for runway inspection.







Straight Edge Specifications for Runway Inspection
Have you ever noticed how most other companies never mention what sort of flatness and straightness quality they supply with their straight edges? It's also amazing that neither the FAA nor USAF specifies any edge quality or certification requirement for straight edges. It should be very important, at least to the paving contractor, before they are stuck with a batch of rejected pavement.

The USAF indicates the following 12-foot straight edge requirements in ETL09-2 section 220.3.2.6. "Straightedges shall be constructed of aluminum or other lightweight metal and shall have blades of box or box-girder cross section with flat bottom reinforced to ensure rigidity and accuracy. Straightedges shall have handles to facilitate movement on pavement". The PaveFlat units are constructed from an aluminum box extrusion that includes grips. The FAA does not specify any type of straight edge design beyond the 16-foot length required in AC 150/5370-10E.

The FAA does however require calibration standards for other aircraft inspection tooling as specified in AC 145-9 (4-12, p.53) that include procedures and records required for repair stations. Although these FAA standards were not specifically designed for runway maintenance tooling, they embody good practices that are common to ISO/DIN standards found in industry.

Europe has specified its very own standard for straight edges that also requires the use of a special taper gauge capable of measuring up to 1-inch of runway surface deviation under the straight edge. European Standard EN 13036-7 of August 2003 for Road and airfield surface characteristics test methods includes a specific requirement for 3-meter long straight edges: "The straightedge shall be (3,000 ± 3) mm and of rigid construction such that when suspended at the end points its measurement edge shall not deviate from a true plane by more than ±0,5 mm at any point. The straightedge shall also be straight along its length and shall not deviate from straight by more than 1,5 mm. The horizontal width of the measurement edge shall be (25 ± 1)" mm." This specified EN13036-7 flatness tolerance of ±0.5 mm (±.019-inch) allows a permissible error of 0.038-inch which is over 30% of the 1/8-inch runway surface smoothness deviation requirement.

It seems more reasonable that a typical industrial gauge specification of 10% of the tolerance range would be an appropriate standard for the runway straight edge quality. Using this criterion, the standard flatness and straightness tolerance for a FAA 16-foot straight edge should be 1/4-inch. Since military and some regional or international specifications use a tighter 1/8-inch standard for checking pavement, a reasonable tolerance for straightness and flatness would keep deviation at less than 0.012-inch. To meet normal industrial gauge standards, the straight edge should be traceable to a NIST surface, include a serial number, and certification. This precision straight edge should be re-inspected at specified intervals to assure that it has not been damaged and record or fix any errors found.

Straight Edge Tolerance = 0.012" total error

PaveFlat Straight Edges are Designed for Contractor Use
A straight edge used for checking pavement must have a wide enough base to stand on the edge without out falling over. The unit must not rust or be susceptible to damage with normal use.


The straight edge must be light enough for one person to lift and handle. Steel is too heavy because a 16-foot x 4-inch x 1-inch straight edge weighs 217 pounds and certainly exceeds NIOSH lifting limitations as published in 94-110. Aluminum extruded alloys offer light weight, but the extrusion process can twist the beam and the soft edge nicks easily. Bonding a continuous stainless steel edge to an aluminum box extrusion substrate provides durable non-rusting working edge. Adding location pads to the opposite side allows precision grinding each side to remove any surface errors on the useable edge. Handholds are then bonded to the sides of straight edge to make the unit easy to grip.









		Next the straight edge is checked against a precision NIST qualified granite surface plate using our inspection procedures. The flatness and straightness measurement is recorded on the Inspection Certificate that references a unique serial number marked on the unit. If you ever suspect that your straight edge has been damaged, we can also recertify or repair your straight edge.



PaveFlat-16 straight edge for checking pavement smoothness
Overall Size: 16-feet x 4.1-inch x 1-inch Stainless Working Edge: 192-inches x 1-inches Straight Edge Weight: 33 lbs. Flatness and Straightness: 0.012-inch maximum deviation over 192 inches Complies with FAA advisory circular AC 150/5370-10E of September 2009 Serial number marked on unit for traceability Certificate of inspection included Cost: $2,500 each. Freight additional - FOB Springfield, OH Shipment 1 to 2 weeks ARO

PaveFlat-12 straight edge for checking pavement smoothness
Overall Size: 12-feet x 4.1-inch x 1-inch Stainless Working Edge: 144-inches x 1-inch Straight Edge Weight: 25 lbs. Flatness and Straightness: 0.012-inch maximum deviation over 144 inches Complies with USAF specifiation ETL09-2 section 220.3.2.6 of March 2009 Serial number marked on unit for traceability Certificate of inspection included Cost: $2,250 each. Freight additional - FOB Springfield, OH Shipment 1 to 2 weeks ARO

PaveFlat-10 straight edge for checking pavement smoothness
Overall Size: 10-feet x 4.1-inch x 1-inch Stainless Working Edge: 120-inches x 1-inch Straight Edge Weight: 21 lbs. Flatness and Straightness: 0.012-inch maximum deviation over 120 inches Serial number marked on unit for traceability Certificate of inspection included Cost: $2,125 each. Freight additional - FOB Springfield, OH Shipment 1 to 2 weeks ARO

PaveFlat-3M straight edge for checking pavement smoothness
Overall Size: 3000 mm x 104 mm x 25 mm Stainless Working Edge: 118.1-inches x 1-inch Straight Edge Weight: 21 lbs. Flatness and Straightness: ± 0.019-inch maximum deviation over 118.1-inches Complies with EN 13036-7 specification of August 2003 Serial number marked on unit for traceability Certificate of inspection included Cost: $2,500 each. Freight additional - FOB Springfield, OH Shipment 1 to 2 weeks ARO

Shim Gauge
Set of 5 pcs of - 12 x 1 x 1/16" with top cover Simple feeler type gauge Made from composite 1/16" thick plastic strips Weight: 0.2 lbs. Used to quantify amount of runway deviation Cost $125.00 each FOB Springfield, OH Shipment: 1 week ARO

Taper Gauge
Taper gauge per EN 13036-7 Marked with 1 mm and 10 mm increments Made from Aluminum Weight: 0.8 lbs. Used to quantify amount of runway deviation Cost $500.00 each FOB Springfield, OH Shipment: 1 to 2 weeks ARO




We Acccept Credit Cards

	*For More Information Contact:*
	Mike Petsch & Associates, Inc.		Phone (937)438-8031
	P.O. Box 684
	Tipp City, OH 45371		Email donpetsch@gmail.com
			PaveFlat.com