Evaluating RLWT Rutting Test of Asphalt Mixtures Based on Industrial Computerized Tomography

To eliminate the effects of image’s light and shade difference when separating and distinguishing the material composition, a method is put forward, namely, ring-type and partitions threshold segmentation. It means setting up different segment threshold for different areas of the same image and then combining these different areas into one image. Furthermore, by analyzing the CT image before and after the RLWTrutting test for the drilling specimen and Marshall specimen and taking the volume of air voids and the angle (alpha) between max main axis and X axis, the differences of two kinds of specimens’ macrotest results were discussed from internal structure distribution. Here, we show that there are differences between macrotest results of two kinds of specimens because of internal air voids and aggregate distribution, which should be considered for compliance testing.


Introduction
With the increasing traffic volume and the effects of heavy-duty axle loading, pavement rutting has become one of major distresses occurring in asphalt pavements.It can influence the safety and the driving comfort directly when the rutting depth reaches a certain limit [1].A variety of methods, such as French Pavement Rutting Tester (PRT), Hamburg Wheel-Tracking Device (WTD), Asphalt Pavement Analyzer (APA), and Rotary Loaded Wheel Tester (RLWT), have been used for estimating the rutting performance of the asphalt concrete pavement in the world.
e Rotary Loaded Wheel Tester, developed in the US in the late 1990s, has been paid more and more attention because of its convenience and ease of use.It can evaluate the rutting performance by measuring the mixture sample and pavement coring specimens whose diameter is 100 mm or 150 mm. e further study on quality control conformance testing about applying RLWT to asphalt pavement has begun [2,3].
As a unique nondestructive evaluation technique, industrial computerized tomography (CT) can inspect the reaction of material interior structures dynamically and quantificationally and provide a new method to researching interior structures.
e computer-aided design of asphalt mixtures based on industrial CT, a prospective technology, is predicted as "the next generation of infrastructure materials research" and "analysis modeling and design method based on system."Masad used CT to research asphalt mixture very early, and he paid more attention to the volumetric properties, contact relationship, and numerical simulation [4,5].Wang et al. have done some research on 3D reconstruction technology and performed a large number of numerical simulation test based on 3D reconstruction technology [6,7].e author's team researched the CT technology for asphalt mixture and made certain progress [8].e main challenge of CT technology is that the brightness of CT image varies according to the distance with central axis because of the low ray power of industrial CT machine.And the CT image cannot give obvious peak, and this challenge leads to some problems in distinguishing different materials accurately.
Based on the foregoing background, this paper developed a new method to segment threshold, namely, ringtype and partitions threshold segmentation.
is means setting up different segment thresholds for different areas of the same image and then combining these different areas into one image.Furthermore, by analyzing the CT image before and after the RLWT rutting test for pavement core and indoor specimen and taking the volume of air voids and the angle alpha between max main axis and X axis, the differences of two kinds of specimens' macrotest results were discussed from internal structure distribution.

Ring-Type and Partitions
Threshold Segmentation reshold segmentation is one way to distinguish the voids, asphalt mastic, and aggregates through segmenting images, whose accuracy largely depend on the selection of threshold T1 and T2 [9].Many researchers take the 2-mode method to analyze the images.
is way can generate threshold by applying point correlation technique, assuming that the image between the two peaks is the same medium and preliminarily determining the threshold T1 and T2 and then ascertaining the T1 and T2 by trial and error.However, after carefully comparing the slice images of different positions scanned by CT, it can be found that the gray level information of each image is not consistent completely, and the gray value of the same kind of material scanned in different position is not same.e gray level information of single image cannot generally represent the whole sample distributing disciplinarian.In addition, from the original image scanned by CT (Figure 1), it can be found that the surrounding of the image is darker than that in the center.Figure 2 shows the image which is consisted by the gray value 189-255 of pixel points.And, it can be seen from Figure 2 that the aggregate around the image can be roughly distinguished, but the one in the center is not clear.e threshold segmentation uses gray value to distinguish the material.erefore, it is very necessary to adjust image so that the same material can be in the same gray level.Ring-type and partitions threshold segmentation helps to solve this problem.
In view of nonuniformity that the gray value of the same material in the CT image gradually increases from the center to the edge, the CT image is divided into different ring-type images.e specific steps are as follows: (1) dividing the whole image into a series of overlapping by 50% ring-type subimage (the center image is round.);(2) using Otsu's method [10] for each subimage to calculate the gray threshold of the aggregate and the background; (3) finally, combining the sub-image processed in step 2. e following is an example about the application of the ring-type and partitions threshold segmentation when the number of the ring is five.
(1) e first step is dividing the whole image into five subimages and dealing with image uniformity processing separately.e result is shown in Figure 3. (2) en establishing the gray histogram of each subimage (as is shown in Figure 4).Table 1 shows gray value statistics of the subimage.
Finally, the appropriate image segmentation algorithm is selected (Otsu's method is selected in this article), and each subimage is segmented.
en, the aggregate particles are isolated and the subimages are combined, which only contains aggregate particles.Figure 5 shows the final aggregate image.is article has attempted other normal methods (fuzzy c-mean method, GMM-EM method, and otsu method) to analyze the CT image, as shown in Figures 6-8.From Figures 5 and 8, it is shown that using ring-type and partitions threshold segmentation method is much better to extracting aggregates than segmenting the image directly.Furthermore, a normal method requires human interaction, and its efficiency is low with the specimen's radius growing.Ring-type and partitions threshold segmentation is a method of variable threshold processing and can solve the problem of uneven background since lowenergy X-ray.
e ring-type and partitions threshold segmentation method is suitable for situation that the gray of the same material is changing gradually from the center to the edge in CT image.For poor quality images, the quality of image segmentation can be improved by appropriately increasing the number of rings.Advances in Materials Science and Engineering

RLWT Rutting Test
RLWT is a one direction device with no horizontal displacement, as shown in Figure 9. Figure 10 shows the stress pattern of the specimen.ere are ten small rubber wheels arranged at the edge of a big rotary wheel.When the shaft spins once, every rubber wheel will load the specimen once.
In this test, a 125 Newton force and 0.7 MPa contact pressure is applied to the surface of the specimen through freespinning rubber wheel.Most of the sample will be tested over 16,000 load application.Besides, it will test and record rut depth and the corresponding loading time automatically.And the maximum rut depth of the test is 6.35 mm, and the maximum loading number is 60,000.

Summary and Discussion
Drilling three core samples is performed in the middle layer of AC-20 asphalt pavement.Table 2 presents the gradation of

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AC-20 asphalt mixtures.Scanning the two kinds of the sample before and after the RLWT and processing the CT image.

Void Ratio Distribution
Characteristics.e specimen's study area is chosen after scanning, eliminating the e ect of external drop shadow, and determining the void segment threshold value T1 by trial method.e air void is assumed to be the part of the specimen, whose gray value between 0 and T1, as shown in Figure 11.Furthermore, the air voids content can be measured by the image method through calculating the ratio of the volume of void against the total volume of the specimen.Table 3 presents the specimen's air voids.
From Table 2, it can be found that the range of void is very wide.And the air void contents of the in-place sample's variability are much greater than those of the Marshall specimen.
e air void content measured by the image method is less than the one measured by the standard method, and the latter is about 1.2 times of the former.e  the open pore is processed as part of background in the image processing.After analyzing upper 3 mm air void of the sample, it can be found that the upper air void of the in-place sample is 5.5%, but the sample shaped in laboratory is only 4.09%.e di erence of the upper air void directly led to the sample's performance di erence.When the pavement compaction degree is low, also means the initial void is high, the aggregate particles cannot interlock very well with each other, and the contact point is unstable.Besides, the compaction rutting might occur under the dynamic loading because of lacking bearing capacity.

Aggregate Particles Distribution Characteristics.
For the line connecting two points on the edge of aggregate particles, there is a unique longest line called particle's main axis, and the main axis intersects the edge of the aggregate particles at the endpoints.e direction of the particle axis, represented by alpha (0 ≤ alpha ≤ 90 °), is the angle between the particle axis and the X axis.e physical meaning of it is shown in Figure 12 [11].

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According to the research of Chen and Liao [12], there is a good correlation between the direction of the particle axis and rutting resistance performance of mixture.erefore, dividing the coarse aggregate into three types is based on the direction of particle axis: (1) the aggregate whose alpha is in 0 °∼30 °is regraded as stable aggregate because of low center of gravity, (2) the aggregate whose alpha is in 30 °∼60 °may become unstable because of higher center of gravity, and (3) the aggregate whose alpha is in 31 °∼60 °is unstable.It is easy for angle change to appear and lead to pavement rutting.
While researching the distribution characteristics of aggregate particles, the CT image of the samples needs to be obtained rst, followed by applying the ring-type and partitions threshold segmentation method (the CT image is shown in Figure 13(a)).Finally, testing the specimens 16,000 times and scanning the specimens at the same location should be performed.
e aggregate particles image is shown in Figure 13(b).Figure 14 shows the relation between deformation and loading times.e alpha is counted before and after the rutting test in these 9 images.And the statistical method is used to analyze the change of alpha before and after the rutting test.e result is shown in Table 4.
It can be found from Figure 11 that the deformation of the drilling specimen is signi cantly larger than laboratory    Marshall specimen deformation.is is mainly due to the impact of the rolling method and construction factors.And it causes the larger air void contents of the drilling specimen, especially in the upper specimen.erefore, drilling the core sample easily causes compactness rutting because of its higher porosity.
From Table 4, it can be found that the specimen is not only vertically compressed, but also a ected by the shear stress because the base of rotary loaded wheel tester is suspended.And the shear e ort is obvious, especially when the specimen is thin.e average alpha value of the drilling specimen and the laboratory Marshall specimen is 31 °∼60 °.It indicates that both of the specimens under di erent shaping methods might convert from an unstable condition into stable condition.From the variance of alpha value before and after the rutting test, it can be found that the alpha of aggregate decreases gradually after the rutting test.e particle proportion of alpha in 61 °∼90 °decrease signi cantly, while the one in 31 °∼60 °increases evidently, and it changes a little in 0 °∼30 °range.In other words, the specimen obtains higher stability after being tested by RLWT.e variation of aggregate particles' alpha mainly occurred in the coarse aggregate (the size over 4.75 mm), especially the part of large particle (over 9.5 mm).But the alpha of ne aggregate particle changes insigni cantly compared with the change of coarse aggregate particles.e change of large particles are mainly due to the conversion of 61 °∼90 °aggregate particles into 31 °∼60 °aggregate particles.
e average alpha value of 2.36∼4.75mm aggregate particles increases after being tested by RLWT, while the average alpha value of coarse aggregate particles decreases.
Comparing the 0 °∼30 °aggregate particles' proportion between the drilling specimen and the Marshall specimen in 0 °∼30 °range, it can be found that the value of the drilling specimen is larger.Which means conversion ratio of the drilling specimen from unstable condition to stable condition is relatively small.When compared with the 31 °∼90 °of large particle proportion, the proportion of the Marshall specimen is larger.In other words, the Marshall specimen has higher possibility of converting into an unstable condition.It also means that the large particle of the Marshall   Advances in Materials Science and Engineering specimen has larger rotation under loading.Comparing the 0 °∼30 °aggregate particles' proportion between the drilling specimen and the Marshall specimen in 0 °∼30 °range, it can be found that the value of the drilling specimen is larger.Which means conversion ratio of the drilling specimen from the unstable condition to stable condition is relatively small.When compared with the 31 °∼90 °of large particle proportion, the proportion of the Marshall specimen is larger.
In other words, the Marshall specimen has higher possibility of converting into the unstable condition.It also means that the large particle of the Marshall specimen has larger rotation under loading.

Conclusions
(1) In view of the situation that the gray of the same material changes gradually from the center to the edge in CT image, applying ring-type and partitions threshold segmentation method is better for the result and more accurate for particles extraction when compared with segmenting the whole image directly.
(2) e air void variability of the drilling core is higher than that of the Marshall specimen.e air void value measured by the image method is less than the one measured by the standard method.And the later is about 1.2 times of the former.
e air void of drilling core within the 3 mm upper specimen is far more than that of the Marshall specimen.e difference of upper air void will make the difference of the specimen performance directly.
(3) After RLWT rutting test, it can be found that the alpha value of the drilling specimen and the Marshall specimen decreases, and the specimens convert from unstable condition into stable condition.But the change of each shift aggregate is different.What is more, the alpha change of the two kinds of specimens is different because of the shaping method.(4) e two kinds of specimens, whose volumetric properties and mix proportions are same, have different internal material (void and aggregate particle) distribution, macroscopic volume parameters, and mechanics indexes because of the different shaping method.It should be paid more attention when we do compliance test of construction quality.

Figure 1 :
Figure 1: Original image of CT scanning.

Figure 2 :
Figure 2: Image of gray level from 189 to 245.

Figure 13 Figure 14 :
Figure 13: (a) Aggregate particles before the rutting test; (b) aggregate particles after the rutting test.

Table 1 :
Statistical table of gray level.
4Advances in Materials Science and Engineering reason is that some small pores cannot be identi ed because of the relationship of the image quality and the program application adaptability.Another important reason is that

Table 3 :
Statistical table of air void ratio.

Table 4 :
Statistical table of alpha.