ExxonMobil has introduced new foamable Achieve™ Advanced PP6302E1, an easily and affordably processed sustainable solution for high volume applications, including food and beverage packaging, industrial packaging, building products, and automotive parts. This new high melt strength (HMS) grade improves product stiffness by up to 30 percent, compared to standard HMS PP foam, for significant cost reduction opportunities.
▪ Commercial potential of foamable PP can now be fully realized ▪ Delivers up to 30 percent better stiffness versus standard HMS PP foam ▪ Unlocks opportunities in packaging, building products, auto parts
“Historically, foam applications have been dominated by amorphous polymers such as PS, PU and PVC. Foamed PP is a relatively recent advancement having been introduced only about 20 years ago, but it never gained much commercial traction,” said Olivier Lorge, Global Market Development Manager, Polypropylene, Vistamaxx and Adhesions Business, ExxonMobil. “Customers can now challenge reality and rethink what’s possible for lightweight foamed PP parts in high volume applications because of the value-in-use delivered by our new Achieve™ Advanced PP6302E1. The commercial potential of foamable PP can now be pursued and fully realized.”
Achieve™ Advanced PP6302E1 is a viable alternative to PS foam, PFAs, and VOCs and monomer concerns (prop 65) which are being increasingly regulated. It can eliminate trade-offs and set new standards for sustainable foamed PP parts by delivering value-in-use in a number of ways. It is processable on existing PS foam lines with varied blowing agents, reduces material use while delivering product integrity, and is recyclable in those communities where appropriate collection and recycling facilities exist.
“Converters, brand owners and OEMS can unlock opportunities in a range of applications that benefit from lightweighting and insulation while leveraging PP properties,” said Lorge.
In automotive parts (such as headliners, ducts, floor liners), Achieve™ Advanced PP6302E1 delivers the stiffness that allows vehicle manufacturers to maintain critical performance properties while reducing weight and increasing fuel efficiency. The foam structure can also provide benefits such as heat insulation and sound dissipation for a more comfortable ride.
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