Patent Title: POLYOL COMPOSITION FOR PRODUCING FLEXIBLE POLYURETHANE FOAM..
Applicant/Assignee: Toyo Tire & Rubber
Publication date: 20-10-2016
“Gist”: Polyrotaxanes in PU foam reduces ‘wobble’ when used in car seats
Why it is interesting: The use of polyrotaxanes in polyurethanes is not new and has been discussed before in this blog. According to the current invention polyrotaxanes with OH-functional rings can be incorporated in flexible foams, where they are said to reduce tensile stress while having little impact on compressive properties. When these foams are used in (e.g.) vehicle seats that are subject to low frequency sideways vibrations, they should reduce the sense of “wobble” of the occupants. The theory is that under tension the rings slide along the axis molecule equalizing stresses. In the examples polyrotaxanes with 11000 to 20000 molecular weight PEG axis molecules are used with cyclodextrin rings having an OHv of 43 to 85.
Polyrotaxane-crosslinked polyurethane under stress (schematic)
Posted by Gerhard Bleys on October 24, 2016
Patent Title: POLYOL PREMIX COMPOSITION FOR RIGID POLYURETHANE FOAMS
Publication date: 13-10-2016
“Gist”: Addition of dicarboxilic acid reduces cream time in amine catalyzed foams
Why it is interesting: A short cream time has advantages for rigid PU spray foam because it can reduce dripping of the material after application. According to this invention the cream time of an amine-catalyzed, HFC-blown spray foam composition can -surprisingly-be reduced by addition of a dicarboxilic acid, preferably succinic or glutaric acid. The diacids are used in a ratio of about 2 equivalents acid to 1 equivalent of (free) amine. In the examples a clear reduction of cream time is shown compared to compositions with no diacid, a mono-acid or less than the required amount of diacid. However, all examples also contain some trimerization catalyst (2-hydroxypropyl trimethylammonium formate) next to the tert-amine catalyst (N,N-dimethylcyclohexylamine). It would be interesting to see an example without the trimerization catalyst i.m.o.
Posted by Gerhard Bleys on October 14, 2016
Patent Title: Self-Repairing Polyurethane Networks
Applicant/Assignee: Clemson University
Publication date: 6-10-2016
“Gist”: Polyurethane networks with alkylated polysaccharide moiety show self-healing properties
Why it is interesting: Chitosan (pref.) is alkylated by reacting with dodecylaldehyde (in solvent) and reducing the resulting imine with sodium cyanoborohydride. The alkylated chitosan is then reacted with isocyanate and polyol. When used as coating, the material is claimed to show self-healing properties when irradiated with UV light. Modifying the composition by incorporation of catechol, or by changing the saccharide allows for materials which ‘heal’ when exposed to ferric ions or carbon dioxide. No explanation for this behaviour is given and it is not immediately clear to me why this should work.
Self-healing network according to the invention. The isocyanate used was (E)-3,5-bis(6-isocyanatohexyl)-6-( ( 6-isocyanatohexyl)imino )-1,3,5-oxadiazinane-2,4-dione. ALK= alkyl, POL=polyol.
Posted by Gerhard Bleys on October 10, 2016
Patent Title: Foam with Green Tea Additive for Foam Mattresses, Pillows and Cushions
Publication date: 22-09-2016
“Gist”: Green Tea is added to memory foam formulation
Why it is interesting: Powdered leaves of the Green Tea plant (Camellia sinensis) are added to memory foam formulations in an amount of less than 2% (w/w) on the total composition. The Green Tea is said to kill bacteria, mites and molds and reduce the smell of the foam when used in pillows and mattresses for example. Since tea leaves are also claimed to “brighten eyesight, refresh the brain and resist radiation” it’s hard to know if the claim is true. If it doesn’t work it won’t hurt I guess.
Camellia sinensis (Wikipedia)
Posted by Gerhard Bleys on September 26, 2016