Randy Wahlen, PE, Marketing Engineer for Oldcastle Infrastructure
January 29, 2019
One question those of us in the concrete pipe industry often hear is, “Why is minor cracking in concrete pipe ok?” The American Concrete Pipe Association, AASHTO, and other national standards recommend that minor cracking up to 0.10” doesn’t pose a structural issue for concrete pipe. But how do we know minor cracks won’t worsen or corrode the reinforcing steel?
The answer is found in the principle of autogenous healing. Perhaps concrete’s most important property, autogenous healing is concrete’s ability to heal itself in the presence of moisture. Autogenous healing of concrete pipe is common when the buried pipe is in the presence of moisture, either on the soil side or inside the pipe itself.
Autogenous healing was first recorded in the 1830s by the French Academy of Science. Evidence that autogenous healing has occurred is a whitish substance forming along the crack line. In the presence of moisture, concrete extrudes calcium hydroxide which, upon exposure to the atmosphere, is converted to calcium carbonate (limestone) which seals the crack. Not only can concrete heal itself, but the process also leaves the crack stronger than the original concrete as tests have demonstrated.
However, there hasn't been much research on autogenous healing since the 1930s.To provide a present-day example, the Mountain States Concrete Pipe Association presented a demonstration.
At the recent Mountain States Plant Tours, we posed a simple test to demonstrate autogenous healing. Although we realize it’s not a research lab-worthy experiment, our results provide positive anecdotal evidence of autogenous healing’s speed and strength.
In our experiment, we demonstrated the presence of calcium carbonate as evidence of healing and then retested the pipe after it had healed. First, we cracked a week-old pipe and measured the loads for a 0.01” crack and an ultimate crack. The initial cracks occurred at a 2,480 (0.01”) d-load and 2,875 ultimate d-load, to simulate the worst-case scenario a pipe would experience in the field. The 15” concrete pipe was then filled with water. While the cracks leaked initially, the cracks started to seal and calcium from the healing was readily evident after three days of the pipe being filled with water.
After more than a month with water in the pipe, we retested the pipe by placing it as near the same orientation as we could. The retested cracks occurred at a 3,050 (0.01”) d-load and 3,950 ultimate d-load. While the original pipe had a d-load strength that was 80 percent greater than required for a Class III pipe, its retesting in a cracked (but healed) condition gained an additional 23 percent strength. For pipes that will remain buried and in the presence of moisture for many decades, the results are expected to be even higher.
Our experiment demonstrates:
• A cracked pipe will heal in the presence of moisture
• The crack at the location of the steel reinforcement is much smaller than the surface cracks (i.e., steel corrosion needs a similar environment as healing, so healing should occur first)We were pleased to show the healed pipe took more load later than it did initially. And in a real-world situation when pipes are underground for decades, we know the pipe will likely be stronger over time than when it’s initially installed. The results provide a positive example for the concrete pipe industry that minor cracking poses no threat to the soundness of our product.
For more information on autogenous healing, visit the ACPA website’s resources on cracking: https://www.concretepipe.org/pipe-box-resources/inspection/cracks/. And leave a comment to let us know what you think about our experiment. How would you have conducted a pipe test? What would you have done differently? We’d like to hear from you!