An incidental discovery in a wood products lab
at Oregon State University has produced a new pressure-sensitive adhesive that
may revolutionize the tape industry – an environmentally benign product that
works very well and costs much less than existing adhesives based on
petrochemicals.
The new adhesive can be produced from a range of vegetable oils, and may find
applications for duct tape, packaging tape, stick-on notes, labels, even
postage stamps – almost any type of product requiring a pressure-sensitive
adhesive.
There are thousands of pressure-sensitive tape products, and analysts say it’s
a $26 billion global industry.
The discovery was made essentially by accident while OSU scientists were
looking for something that could be used in a wood-based composite product – an
application that would require the adhesive to be solid at room temperature and
melt at elevated temperatures.
For that, the new product was a failure.
“We were working toward a hot-melt composite adhesive that was based on
inexpensive and environmentally friendly vegetable oils,” said Kaichang Li, a
professor of wood science and engineering in the OSU College of Forestry. “But
what we were coming up with was no good for that purpose, it wouldn’t
work.”
“Then I noticed that at one stage of our process this compound was a very
sticky resin,” Li said. “I told my postdoctoral research associate, Anlong Li,
to stop right there. We put some on a piece of paper, pressed it together and
it stuck very well, a strong adhesive.”
Shifting gears, the two researchers then worked to develop a pressure-sensitive
adhesive, the type used on many forms of tape, labels and
notepads.
“It’s really pretty amazing,” Li said. “This adhesive is incredibly simple to
make, doesn’t use any organic solvents or toxic chemicals, and is based on
vegetable oils that would be completely renewable, not petrochemicals. It
should be about half the cost of existing technologies and appears to work just
as well.”
There have been previous attempts to make pressure-sensitive adhesives from
vegetable oils, Li said, but they used the same type of polymerization
chemistry as the acrylate-based petrochemicals now used to make tape. They
didn’t cost much less or perform as well, he said.
The new approach used at OSU is based on a different type of polymerization
process and produces pressure-sensitive adhesives that could be adapted for a
wide range of uses, perform well, cost much less, and would be made from
renewable crops such as soy beans, corn or canola oil, instead of
petroleum-based polymers.
The technology should be fairly easy to scale-up and commercialize, Li
said.
“OSU has applied for a patent on this technology, and we’re looking right now
for the appropriate development and commercialization partner,” said Denis
Sather, licensing associate with the OSU Office of Technology Transfer. “We
believe this innovation has the potential to replace current pressure-sensitive
adhesives with a more environmentally friendly formulation at a competitive
price."
Li, an expert in wood chemistry, composites and adhesives, has already changed
the face of the wood composites industry. His research created a
formaldehyde-free adhesive that can be used in the production of plywood and
particle board that is non-toxic, and is now becoming more widely used in that
industry. That invention was inspired when he watched mussels clinging
tenaciously to rocks despite being pounded by ocean waves, and he later
duplicated in a laboratory the type of compound they use as an adhesive to
accomplish that.
For these advances, in 2007 Li received the Presidential Green Chemistry
Challenge Award from the Environmental Protection Agency. It recognized his
continued work to reduce toxic chemicals used in manufacturing
processes.
About the OSU College of Forestry:
For a century, the College of Forestry has
been a world class center of teaching, learning and research. It offers
graduate and undergraduate degree programs in sustaining ecosystems, managing
forests and manufacturing wood products; conducts basic and applied research on
the nature and use of forests; and operates 14,000 acres of college forests.
OSU Researchers Discover new Adhesive for Tape, Label Industry
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