All posts in category Isocyanates and Prepolymers

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/

Yet Another Way to Make Isocyanate Prepolymers with Low Free Monomeric Isocyanate

Title: LOW-VISCOSITY REACTIVE POLYURETHANE COMPOUNDS

 Number/Link: WO2013092564 (in German)

Applicant/Assignee: Bayer

Publication date: 27-06-2013

Gist”: A prepolymer with very low free diisocyanate content and relatively low viscosity can be prepared by reacting MDI having a high 2,4′ isomer content with a low MW diol in a first step and adding a high MW polyol in a second step.

Why it is interesting: The use of asymmetric diisocyanates (having isocyanate groups with different reactivities) to prepare prepolymers with low free monomers is well known.  Prepolymers prepared using diisocyanates with high levels of 2,4′-MDI, 2,4-TDI, IPDI etc. will however still show a very high viscosity at low isocyanate content. Bayer has now found that prepolymers with lower free monomer and lower viscosity can be prepared by using two polyols reacted in seperate stages. In a first step an MDI with >95% 2,4′ isomer is reacted with a (pref) diol with a molecular weight between 60 and 700 to produce a prepolymer with an NCO content of more than 15%. In a second step this prepolymer is then further reacted with a ‘conventional’polyol to obtain the final prepolymer.  In an example a prepolymer with less than 0.1% free MDI and a viscosity of 25 Pa.s at 40°C was prepared.

2,4'-MDI

2,4′-MDI

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by Gerhard Bleys on July 2, 2013  •  Permalink
Posted in Adhesives-Coatings, Isocyanates and Prepolymers
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Posted by Gerhard Bleys on July 2, 2013

https://purpatents.com/2013/07/02/yet-another-way-to-make-isocyanate-prepolymers-with-low-free-monomeric-diisocyanate/

A New Way to Remove Monomeric Isocyanate from Prepolymers

Title: REDUCTION OF THE FRACTION OF MONOMERS COMPRISING ISOCYANATE GROUPS IN MOISTURE-CURING POLYURETHANE COMPOSITIONS

 Number/Link: US2013/0158210

Applicant/Assignee: Sika

Publication date: 20-06-2013 (priority PCT/EP)

Gist”: Reduction of monomeric MDI in moisture curable prepolymers by addition of amino functional silica particles.

Why it is interesting: As noted in some previous posts in this blog (*) reduction of monomeric isocyanate from moisture curable systems is an important trend in PU systems development. The current invention solves this problem by adding isocyanate-reactive SiO2 particles to the prepolymer composition.  The particles have a preferred average size of 50-60μm, are (nano-)porous with a large specific surface area and have been chemically modified with (preferably) aminosilanes to make them amino-functional. Particles of this type with different functional groups are commercially available under the QUADRASIL tradename.
(*) Note that you can use the ‘search’ or ‘category’ boxes on the right (or in case of a mobile device on the bottom) of this page to help you navigate the site.

Porous Silica Particles

Porous Silica Particles

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by Gerhard Bleys on June 27, 2013  •  Permalink
Posted in Adhesives-Coatings, Isocyanates and Prepolymers
Tagged , , , ,

Posted by Gerhard Bleys on June 27, 2013

https://purpatents.com/2013/06/27/a-new-way-to-remove-monomeric-isocyanate-from-prepolymers/

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