Super-tough Epoxy Withstands Extreme Temperatures To Aid Ion Collider Project—Saves
Gov’t. $250,000
EASTON, PA - The use of an epoxy adhesive developed by Smooth-On, Inc., has become an integral part of an ion accelerator project which will allow physicists to study matter in its earliest form.
The epoxy cement, MT-13, was developed by Smooth-On, Inc., of Easton and was the only material found fit for duty in the Relativistic Heavy Ion Collider
(RHIC) being developed by the Brookhaven National Laboratory in Upton, NY.
According to Mel Lindner, a Project Engineer on the RHIC project, Smooth-On’s MT-13 not only singularly withstood the most extreme of conditions, but saved the government project over $250,000 in the process.
The RHIC, a half-billion dollar project, is expected to be operational in late 1999. When it goes online, the project will help over 800 physicists in their search for a form of matter that has not existed since before the "Big Bang" of creation theory.
Lindner states that a problem project engineers had was finding a material which could withstand temperatures as low as four degrees Kelvin—just degrees above Absolute Zero (- 459.6° F / - 237.6° C).
Smooth-On’s MT-13 epoxy was used as both an adhesive and space filler in a magnet assembly placed in a pool of liquid helium, and as Lindner noted, "was the (only) material that qualified for the job." The cryogenic application of MT-13, he said, began 3-4 years ago. Replacing expensive Kapton film wrap, "MT-13 epoxy became a simple and inexpensive solution to our problem and saved the project over a quarter of a million dollars in materials," Lindner observed.
