All posts tagged viscoelastic

Flexible- and Viscoelastic Foams from CO2-Based Polyols

Title: HIGH STRENGTH POLYURETHANE FOAM COMPOSITIONS AND METHODS

Number/Link: WO2014/074706

Applicant/Assignee: Novomer

Publication date: 15-05-2014

“Gist”: The mechanical properties of flexible foams can be improved by replacing up to 50% of the polyol with CO2-based polycarbonate polyols.

Why it is interesting: Novomer (http://www.novomer.com) is a ‘sustainable chemistry company’ which produces aliphatic polycarbonate polyols from CO2 and epoxides. In this 215 page patent application they claim that hardness and mechanical properties viz. tensile- and tear strength of flexible and VE foams are improved by replacing between 2 and 50% of the polyol by their polycarbonate polyol. Other properties are supposedly not affected much, although resilience (e.g.) clearly drops for HR foams.
While the first claim may be technically new, it is – in my opinion- not patentable because not surprising to “a person skilled in the art”.

Reaction of CO2 and PO showing various ‘head-to-tail’ orientations

A New Type of Polyurethane Memory Foam

Title: VISCOELASTIC POLYURETHANE FOAM

Number/Link:WO 2014/058857

Applicant/Assignee: BASF

Publication date: 17-04-2014

“Gist”: Using TDI, two high MW and high EO polyether triols, hydrolizable PDMS and DELA results in a flexible foam with a low Tg ánd a low resilience.

Why it is interesting: While viscoelastic or “memory” foams are popular in the furniture industry they are currently not used in e.g. car seats because of their limited use temperature. Typically these foams become too stiff at lowish temperatures and often too soft and resilient at higher temperatures. The current invention is about viscoelastic foams which are useful for transport applications because they show constant properties over a wide temperature range. This is accomplished by reacting TDI with a (about) 4000 MW, 75% EO triol, an EO-capped 6500 MW, 75% EO triol, quite some diethanolamine (DELA), and quite some (2.5 pdw in the examples) hydrolyzable polydimethylsiloxane copolymer (PDMS), together with water and catalysts. The foams show two Tg’s one at about -20°C and a minor one at about -55°C (probably due to a seperate PDMS phase) which keeps the foams resilient at low temperatures. The -20°C polyether phase is probably mixed with the DELA-TDI phase resulting in a wide transition reaching to over 0°C. This results in a resilience of about 30% which is quite high for a typical ‘memory’ foam.

Polyurethane “memory foam”

1 Comment

by Gerhard Bleys on April 21, 2014 • Permalink

Posted in Flexible Foams

Tagged acoustics, automotive, comfort, energy, glass transition, hydrophilic, Insulation, mattress, memory foam, PDMS, seat, viscoelastic

Posted by Gerhard Bleys on April 21, 2014

https://purpatents.com/2014/04/21/a-new-type-of-polyurethane-memory-foam/

Crosslinking TPU with Isocyanates.

Title: POLYURETHANE ON THE BASIS OF SOFT THERMOPLASTIC POLYURETHANE

Number/Link: US2014/0094571

Applicant/Assignee: BASF

Publication date: 3-04-2014 (priority PCT/DE)

“Gist”: A soft TPU is crosslinked using isocyanate dissolved in another TPU.

Why it is interesting: Crosslinking thermoplastic polyurethane parts to improve certain mechanical- and creep properties is known. In this case the crosslinking agent is an isocyanate with a functionality larger than 2, preferably an MDI prepolymer. The isocyanate is dissolved in another TPU by melt blending in a twin-screw extruder at a temperature below 160°C and pelletizing. Pellets of a soft, polyester-based, TPU with a hardblock content less than 5% are mixed with the isocyanate-containing pellets, injection moulded and post-cured to crosslink the moulded part.

TPU phone case.

Innovation in Polyurethanes

All posts tagged viscoelastic

Flexible- and Viscoelastic Foams from CO2-Based Polyols

A New Type of Polyurethane Memory Foam

Crosslinking TPU with Isocyanates.

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