Flexible Adhesives0 pages
Flexible Adhesives
Permabond manufactures several types of flexible adhesives to meet the growing demands of industrial engineers. Modified Epoxies, MS
Polymers and Polyurethanes all offer flexibility and each provides unique benefits. The flexibility combined with low shrinkage make them ideal
for bonding thin substrates with no read through and for potting without exerting stress on sensitive components.
Two Component Polyurethane (PT)
Polyurethanes are ideal for many bonding applications including bonding composites,
plastics, leather etc... in automobiles. Products are available with long working life to
allow use on large bonding and potting areas.
Permabond Two component Polyurethanes form strong bonds to
nComposites nMetals nWood nFRP nGlass nPlastics
Key Benefits include:
nVarious Set Times nAdhesion to a Variety of Substrates nNo primer needed
nGood Tensile Strength nEase of Application
MS Polymers (MS)Permabond MS Polymers are single component, hybrid
technology adhesives that moisture cure at ambient temperature. The high
elongation and flexible nature of these strong bonds meet the demands of
stress from impact, peel and expansion that can occur when bonding dissimilar
materials. The have excellent environmental resistance and remain very flexible.
Modified Epoxies (MT)
Permabond Modified Epoxies are two component hybrid technology adhesives that
cure at ambient temperature. Products are available in 10:1 and 2:1 dual cartridges for
dispensing through static mix tips.
Permabond MS polymers and Modified Epoxies form strong bonds to
nComposites nMetals nWood nFRP nGlass
nPlastics nConcrete nMasonry nBrick and nStone.
Key Benefits include:
nPaintable nNon-corrosive nFast Tack Free Time nAdhesion to a Variety of
Substrates nNo primer needed nWeather Resistant - No Cracking or Splitting
nEase of Application - Use in Most Weather Conditions
The high elongation and flexible nature of these strong bonds meet the
demands of stress from impact, peel and expansion that can occur when
bonding dissimilar materials. The have excellent environmental resistance and
remain very flexible.