This is a review of Dr. Erik Schlangen’s demonstration of self-healing
asphalt that he developed. This video can be found on the TED talk website at https://www.ted.com/talks/erik_schlangen_a_self_healing_asphalt.
It was seen on April 27, 2014.
This is a short video – only six minutes long. However, I
picked it because it directly relates to Materials Engineering and successfully
solves a problem. Dr. Schlangen presented his findings at a TED talk in the
Netherlands in 2012. This review will focus on Dr. Schlangen’s presentation,
which was successful in its pitch. This finding has excited me on a personal
level, as it demonstrates my personal favorite form of creativity; applying old
techniques to new applications.
The style of the talk is a combination of a demonstration
and a sales pitch. Dr. Schlangen’s purpose is to show the world his cool new
research. This has the possibility to reach hundreds of thousands of people,
especially given the popularity of TED talks.\
Dr. Schlangen talks about asphalt roads and the problems
they face – water build-up, noisy, and they crumble easily. Some of these
problems have already been solved; porous asphalt reduces water build-up and
noise. However, this too faces the problem of crumbling over time. So how does
that get fixed? Dr. Schlangen introduces two material-related topics: induction
heating and self-healing materials. His team basically wove steel fibers into
the asphalt along with some heat-induced self-repairing material. With this
technique, a strong electric coil can cause the steel wires to heat up and
induce the repairing reactions in the asphalt. Dr. Schlangen demonstrates this
technique by breaking a piece of his asphalt in half, then putting it in a
microwave. When he removes the piece, it has healed itself back together.
Dr. Schlangen’s pitch is rather successful. Most helpful was
the successful demonstration of the self-healing asphalt, which was
accomplished using a rather simple microwave. This in particular helped to sell
it; most of the audience knows what a microwave is. The idea that something
that “simple” could be used to heal roads is fascinating. If this actually
makes it onto major roadways, it will be a simple manner to “heal” them rather
than replacing them every 10 years.
Unfortunately, Dr. Schlangen did not go into the science
behind induction or self-healing materials. As a Materials Engineering student,
I understand what they are, but it looks like hand-wavy magic to those on the
outside. I really was hoping he would get into the science behind it. However,
he chose correctly based on his audience – many people would care what the
actual science is as long as it works.
In terms of “sales pitch” TED talks, this talk was better
than some of the other ones that I’ve seen. Sometimes, the talker just looks at
his demonstration, or his feet, but Dr. Schlangen engaged the audience well. He
faced the crowd, did some cool demonstrations that involved liquid nitrogen,
and cracked a couple jokes.
As I said before, this is my favorite type of creativity:
taking old ideas and applying them to new applications. From what Dr. Schlangen
described, these are fairly simple techniques – induction heating has been used
in industry for decades, and self-healing materials, while still a topic of
research, are also in use. Dr. Schlangen took these two concepts, took an existing
material (porous asphalt) and combined them to make an even better material. It’s
the same thing I hope to do in the future. While I’m not really interested in asphalt
specifically, I am interested in composite materials. Much like this asphalt,
composites take the best of two worlds – e.g. the toughness of a polymer and
the hardness of a ceramic – and combine them to make a material that is tough,
strong, and lightweight. The newest planes – things like the Boeing 787 – are being
made using a material called “black aluminum,” a combination of carbon fibers and
epoxy. There’s this whole field out there that just focuses on combining things
to make them stronger, and that’s right where I’m heading.
In conclusion, Dr. Schlangen gave a good pitch for his
asphalt. While he did not go into the science behind it, he had a successful
demonstration of its effectiveness. This is the type of science/research that
makes me excited for my future.
#Platypus
#Platypus
That sounds really awesome! I especially think it's great that he included the permeable asphalt in his new idea. I know that roads and pavement are a huge source of run off water in the environment and permeable pavement helps a lot with this problem. It's great that he can "kill two birds with one stone" by including environmentally friendly design features in his new solution to road maintenance!
ReplyDeleteI appreciate the pure usefulness of his solution. Not only does replacing asphalt every 10 years cost serious money, but the reconstruction causes traffic that wastes time and fossil fuels. By using self-healing asphalt, these expenditures can be greatly reduced. As an animal-science major, I agree with you in saying that the science behind it probably wouldn't make sense to me, but I find it interesting nonetheless.
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