All posts by Gerhard Bleys

Viscoelastic TDI “Hot Cure” Foams

Title: POLYURETHANE FOAM

 Number/Link: WO2013/108582 (Japanese)

Applicant/Assignee: SMP TECHNOLOGIES

Publication date: 25-07-2013

“Gist”: A (semi-) flexible foam with a Tg of around body temperature is prepared from a mixture of PO polyols and TDI.

Why it is interesting: a The viscoelastic foams of this invention are prepared from a mixture of popyoxypropylene diols and triols with molecular weights varying between 200 and 3000 (up to 5 different polyols in the examples) together with TDI 80:20, water and conventional additives. Because of the all-PO polyols the foams have to be post-cured at high temperature (‘hot cure’).  The foams have a damping (tan δ) of over 0.4 between 0 and 40°C (measured at 1Hz in the examples) and between 0.1 and 100Hz (measured at 25ºC) as shown in the graphs below. (Note that because of the time-temperature superposition principle the second graph is actually redundant.) The foams are supposedly useful ‘to be worn on the body’ – I suppose they mean liners for helmets, shoes, pads, sports gear and the like.

Storage- and Loss modulus and damping vs temperature at 1Hz

Storage- and Loss modulus and damping vs temperature at 1Hz

loss tangent freq

Storage- and loss modulus and damping vs frequency at 25°C

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by Gerhard Bleys on July 30, 2013  •  Permalink
Posted in Flexible Foams
Tagged , , , ,

Posted by Gerhard Bleys on July 30, 2013

https://purpatents.com/2013/07/30/viscoelastic-tdi-hot-cure-foams/

Improved Viscoelastic Flexible Foams (“Memory Foams”)

Title: USE OF POLY(BUTYLENE OXIDE) POLYOL TO IMPROVE DURABILITY OF MDI-POLYURETHANE FOAMS

Patent Number & Link:  US2013178548    (related case US2013178550 )   

Applicant/Assignee: Dow

Publication date: 11-07-2013 (priority PCT/US)

Gist”: Use of a high molecular weight butyleneoxide monol to improve the compression set of viscoelastic foams.

Why it is interesting: Viscoelastic or “memory” flexible foams are currently popular for use in matresses and pillows. Much research and development has been done on these materials and the patent situation is a true minefield. Usually a mixture of EO-rich and PO-rich polyols of different molecular weights is used to control the glass transition temperature (Tg) of the softblock, wich in turn controls the energy absorption (and thus the resilience) of the foam. In this invention a butyleneoxide monol of high MW is used in addition to a mixture of EO-rich and PO-rich polyols. The BO-monol is used in an amount of 2-10% on the polyol  and supposedly improves compression set while retaining the open cell character (air flow) of the foam.
The related case (US2013/178550) is similar but uses a high MW PO polyol with a functionality between 1 and 4 instead of the BO monol.  It is not immediately clear to me whether this latter case is a real invention or is just plugging a hole in the minefield..

A viscoelastic flexible foam

A viscoelastic flexible foam

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by Gerhard Bleys on July 25, 2013  •  Permalink
Posted in Flexible Foams, Polyols
Tagged , , , , ,

Posted by Gerhard Bleys on July 25, 2013

https://purpatents.com/2013/07/25/improved-viscoelastic-flexible-foams-memory-foams/

Over-Indexed and Crosslinkable Thermoplastic Polyurethane

Title: METHOD FOR MAKING OVER-INDEXED THERMOPLASTIC POLYURETHANE ELASTOMER PRECURSOR AND THERMOPLASTIC POLYURETHANE ELASTOMER MADE FROM THE PRECURSOR

 Patent Number & Link: WO2013/103633

Applicant/Assignee: Nike

Publication date: 11-07-2013

Gist”: A TPU is produced at an NCO index of about 110 comprising an unsaturated chain extender .  The material can be injection moulded and subsequently cured with moisture and free radical polymerization.

Why it is interesting: A thermoplastic PU ‘precursor’ is prepared by reactive extrusion of  a polyol (e.g. a 2000MW polytetramethylene ether glycol), an unsaturated chain extender (e.g. trimethylolpropane monoallyl ether – TMPME), optional additives and MDI at an NCO index of 110 to 115 (preferred). After drying, the resulting pellets can be injection- or compression moulded and then cured by moisture and by heat or UV radiation. The resulting PU-polyurea is claimed to have improved toughness, durability and ‘scuff resistance’ compared to conventional TPUs.  The material appears to have been developed for the golf ball industry.  Nike has filed at least two related ‘golf ball patents’: WO2013/103673 and WO2013/103669.

TMPME: unsaturated chain extender used in the invention

TMPME: unsaturated chain extender used in the invention

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by Gerhard Bleys on July 16, 2013  •  Permalink
Posted in Elastomers, Isocyanates and Prepolymers, Thermoplastics
Tagged , , , , ,

Posted by Gerhard Bleys on July 16, 2013

https://purpatents.com/2013/07/16/over-indexed-and-crosslinkable-thermoplastic-polyurethane/

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