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Specialized Adhesives Withstand Thermal Cycling
Adhesives capable of withstanding severe thermal cycling offer many functional benefits. Rather than designing an application around substrate materials with matching coefficients of thermal expansion, many specialty adhesives can handle these fluctuations.
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EP21TDCNFL
Featuring a nickel filling, EP21TDCNFL offers superb electrical conductivity and high shear and peel strength for bonding and sealing applications. This flexbilized two component epoxy is particularly useful for bonding dissimilar substrates that are being thermally cycled and shocked. Learn more
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EP29LPSP
Low viscosity EP29LPSP meets NASA low outgassing requirements and has a low exotherm. This optically clear system is able to withstand cryogenic shocks (i.e. room temperature down to liquid helium temperatures in a 5-10 minute time period). Learn more |
Supreme 10HT
Cryogenically serviceable Supreme 10HT offers high shear and peel strengths, superior chemical resistance and the convenience of a no mix formulation. This toughened system readily withstands severe thermal cycling along with mechanical shock and vibration. Learn more
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EP21TDCHT
With exceptional thermal stability, EP21TDCHT is a versatile system that can be used in structural, electronic, aerospace, medical, and OEM, as well as in other applications. Upon curing this two part system offers high shear and peel strength enabling it to resist temperature cycling, as well as high vibration and mechanical shock. Learn more |
MasterSil 803
Serviceable over the wide temperature range of -180°F to 500°F, MasterSil 803 is a high performance, one part silicone for bonding, sealing, coatings and formed-in-place gaskets. It is an excellent electrical insulator and provides vibration and shock protection for delicate electronic components. Learn more
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EP21TDCSFL
EP21TDCSFL is a silver conductive two component epoxy with very low exotherm. This easy to handle system can be easily applied with minimal sagging on vertical surfaces. Capable of withstanding temperatures down to 4K, it is highly flexible and resists rigorous thermal cycling. Learn more |
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154 Hobart Street, Hackensack, New Jersey, USA
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