Abstract
Field pavement transverse cracking typically can be grouped into two categories, namely thermal cracking that initiates at the surface of the pavement and propagates downward, and reflective cracking that initiates at the pavement layer above the existing pavement cracks or joints and propagates upward. Recently, another transverse cracking phenomenon was noticed in some field investigations but was less studied. Cracks were observed from both the surface and the bottom of field cores, but they cannot be visually observed from the middle layer. In addition, the surface and the bottom cracks lined up well, showing the tendency of meeting each other. This study aimed to evaluate the causes of such transverse cracking phenomena by laboratory tests. Hamburg equipment was used as the evaluation equipment. Some samples were prepared with a saw cut notch 0.33 inches in depth and 0.25 inches in width, and some samples were prepared without the notch at the bottom. The results showed that such a crack type could have happened when samples are aged, the base below the sample is soft, and a notch exists in the bottom layer. A potential mechanism is when the wheel load moves on one side of the existing transverse cracking (the near side), as the specimen on this side tends to bend downward under the wheel load, especially when the support is relatively soft. If without constraint, the other side of the specimen (the far side) should consequently be tilted upward. However, the bonding with the base layer and the self-weight of the specimen restrict the upward movement of the far-side specimen. Therefore, the tensile stress at the surface of the specimen directly on top of the bottom crack is created. At the same time, the bottom crack has the potential of being squeezed and pushed together.
Highlights
Transverse cracking can be categorized into climate-related thermal cracking and load or thermal-related reflective cracking
Many researchers have pointed out that not all asphalt overlays constructed on top of cracked hot mix asphalt (HMA) pavements or Portland cement concrete (PCC) pavements
surface-initiated reflective cracking (SIRC) below the sample to simulate a soft base in the field
Summary
Transverse cracking can be categorized into climate-related thermal cracking and load or thermal-related reflective cracking. The sudden dramatic drop of pavement temperature or repeated daily temperature fluctuation could result in transverse cracking initiating from the surface of the pavement and propagating downward [1]. Reflective cracking is caused by the stress concentration at the bottom of asphalt overlay due to the movement of a crack or joint underneath the overlay layer, which will lead to crack propagation upward in asphalt overlays [2]. The movement of the crack or joint in the underneath layer could be caused by temperature or moisture fluctuation, traffic loading, or a combination of the above factors. In addition to temperature or traffic load, material properties such as the degree of aging could contribute to the initiation of transverse cracking [3].
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
