Difference between revisions of "106.3.2.59 TM-59, Determination of the International Roughness Index"

This method determines the profilograph index of portland cement concrete pavement and asphaltic concrete surfaces. This method determines the profilogram index in English units only, not metric.

106.3.2.59.1 Apparatus

The profilograph shall consist of a frame 25 ft. long supported upon wheels at either end. The profile shall be recorded from the vertical movement of a wheel attached to the frame at mid-point and in reference to the mean elevation of the points of contact with the road surface established by the support wheels. See Figure 106.3.2.59.1, below.

Fig. 106.3.2.59.1

1) The profilogram shall be recorded on a scale of one inch equal to 25 ft. longitudinally and one inch equal to one inch, or full scale, vertically.

2) Motive power may be provided manually or by use of a propulsion unit powered with a gasoline engine using the manufacturer’s towing option. In operation, the profilograph should be moved at a speed no greater than a walk (about 4.5 mph). (Excessive speed will increase the profilograph index count.)

3) Calibration of the profilograph shall be checked as follows:

The horizontal scale is checked by running a known distance and scaling the result on the profilogram. This shall be conducted at least annually at the MoDOT approved test site. If the scale is off, the profilograph should be recalibrated.

The vertical scale is checked by putting a calibration block of known thickness under the profile wheel and again scaling the result on the profilogram. This shall be conducted at the beginning of each day the machine is operated. If the scale is off, the cause of the incorrect height should be determined and corrected.

106.3.2.59.2 Procedure

106.3.2.59.2.1 Automated Profilogram Evaluation

Automated profilogram evaluation will be used unless otherwise determined by the engineer.

The engineer’s profilogram from calibration test sections and assurance testing will be evaluated using automated trace reduction performed by an automated Ames unit with the following settings:

a) Filter length: Low Pass = 3 to 4 (ft.), High Pass = 0.00 (ft.)

Filter length has the same effect as using the contrasting color to outline the trace, removing spikes and high frequency chatter.

b) Scallop rounding = 0.01 in.

This setting determines the amount of rounding given to any particular scallop. For example: In order to measure a defect to the nearest 0.05 in., the rounding on the machine must be set higher (finer) to accurately make that determination.

c) Minimum Scallop height = 0.030 in. (in software, non-adjustable)

Minimum Scallop width = 0.08 in. (in software, non-adjustable)

Scallop height and width corresponds to existing standards. .08 in. is equal to 2 ft. on the roadway. 0.030 in. simply provides a means to count a defect that is more than 0.030 in. tall as 0.05.

d) Template height for grind point = 0.4 in.

Corresponds to the standard bump template.

e) Bump Width = 25 ft.

f) Band Width = 0.001 in.

106.3.2.59.2.2 Manual Profilogram Evaluation

To determine the profile index, use a transparent scale 1.70 in. wide and 21.12 in. long representing a pavement length of 528 ft. or one-tenth of a mile at a scale of 1 in. = 25 ft. Near the center of the scale is a dashed reference line extending the entire length of 21.12 in. On either side of this dashed reference line are scribed lines 0.1 in. apart. These lines serve as a convenient scale to measure deviations or excursions of the graph above or below the dashed reference line. These are called “scallops”.

106.3.2.59.2.3 Method of Counting

Place the transparent scale over the profile in such a way as to center it on the profile as much as possible. When this is done, scallops above and below the dashed reference line usually will be approximately balanced. See Figure 106.3.2.59.2, below.

Fig. 106.3.2.59.2

The profile trace will move from a generally horizontal position when going around super-elevated curves making it impossible to center the trace without shifting the scale. When such conditions occur the profile should be broken into short sections and the dashed reference line repositioned on each section while counting as shown in the upper part of Figure 106.3.2.59.3.

Fig. 106.3.2.59.3

Short portions of the profile line may be visible above or below the dashed reference line but unless they project 0.03 in. or more and extend longitudinally for 2 ft. (0.08 in. on the profilogram) or more, they are not included in the count. See Figure 106.7.59.2 for illustration of these special conditions.) Starting at the right end of the scale, measure and total the height of all the scallops appearing both above and below the dashed reference line, measuring each scallop to the nearest 0.05 in. (half a tenth). Record this total on the profile sheet near the left end of the scale together with a small mark to align the scale when moving to the next section.

When scallops occurring in the first 0.1 mile are totaled, slide the scale to the left, aligning the right end of the scale with the small mark previously made, and proceed with the counting in the same manner. The last section counted may or may not be an entire 0.1 mile. If not, its length should be scaled to determine its length in miles. An example is as follows:

The procedure for converting counts of profile index is as follows:

Using the figures from the above example:

Profile Index = (1.45 in.) / (0.376 miles) = 3.9 in./mile

106.3.2.59.2.4 Limits of Counts - Joints

When counting profiles, a day’s paving is considered to include the last portion of the previous day’s work, which includes the daily joint. The last 15 to 30 ft. of a day’s paving cannot usually be obtained until the following day. In general, the paving contractor is responsible for the smoothness of joints if pavement is placed on both sides of the joint. On the other hand, the contractor is responsible only for the pavement placed if the work abuts a bridge or a pavement placed under another contract. Profilograph readings when approaching such joints should be taken in accordance with the standard specifications.

106.3.2.59.2.5 Average Profile Index for a Section

When averaging profile indexes to obtain an average for a section, the average for each segment must be “weighted” according to its length. See Figures 106.3.2.59.4 and 106.3.2.59.5. Figure 106.3.2.59.4 is an example when the last segment is longer than 250 ft. and Figure 106.3.2.59.5 is an example when the last segment is less than 250 ft.).

Fig. 106.3.2.59.4

Fig. 106.3.2.59.5

106.3.2.59.2.6 Determination of High Points in excess of 0.4 in.

Use a transparent bump template having a line one-inch long scribed on one face with a small hole or scribed mark at either end and a slot 0.4 inch from and parallel to the scribed line. See Figure 106.3.2.59.3. (The one-inch line corresponds to a horizontal distance of 25 ft. on the horizontal scale of the profilogram).

106.3.2.59.2.7 Locating High Points in Excess of 0.4 in.

At each prominent peak or high point on the profile trace, place the template so that the small holes or scribe marks at each end of the scribed end of the scribed line intersect the profile trace to form a chord across the base of the peak or indicated bump. The line on the template need not be horizontal. With a sharp pencil draw a line using the narrow slot in the template as a guide. Any portion of the trace extending above this line will indicate the approximate length and height of the deviation in excess of 0.4 in.

There may be instances where the distance between easily recognizable low points is less than one in. (25 ft.). In such cases a shorter chord length shall be used in making the scribed line on the template tangent to the trace at the low points. It is the intent, however, of this requirement that the baseline for measuring the height of bumps will be as nearly 25 ft. (1 in.) as possible, but in no case to exceed this value. When the distance between prominent low points is greater than 25 ft. (1 in.) make the ends of the scribed line intersect the profile trace when the template is in a nearly horizontal position. A few examples of the procedure are shown in the lower portion of Figure 106.3.2.59.3.

106.3.2.59.3 Certified Operator

The contractor shall furnish a certification stating that the test was performed by a trained operator. The operator must be certified as having been trained in the use of the profilograph and certified to have sufficient experience to demonstrate competence in the use of the equipment.

106.3.2.59.4 Quality Control/Quality Assurance

The contractor’s quality control profilogram evaluation will be compared to the engineer’s quality assurance profilogram evaluation on a test section established by MoDOT and on a randomly selected portion of the work, usually ten percent of the project length. Automated profilogram evaluation using an automated Ames unit as outlined in EPG 106.3.2.59.2.1 Automated Profilogram Evaluation will be the engineer’s basis for comparison.