Novel Cellopener for Flexible- and Viscoelastic PU Foams

Patent Title: POLYURETHANE FOAM WITH AQUEOUS POLYMER DISPERSION  & VISCOELASTIC POLYURETHANE FOAM WITH AQUEOUS POLYMER DISPERSION

 Number/Link: WO2016/100306 & WO2016/100263

Applicant/Assignee: Dow

Publication date: 23-06-2016

Gist”: Dispersions of acid modified olefins in water act as cellopeners

Why it is interesting: According to this invention aqueous dispersions of acid-modified olefins can be used as cellopeners for conventional, high resilience and viscoelastic foams. The examples show that a 40% ‘solids’ dispersion of an acrylic acid – ethylene copolymer in water, used in about 1 to 2% on the total isocyanate-reactive composition has a clearly positive effect on foam air-flow properties. The polymer dispersions can be made according to Dow’s proprietary BLUEWAVE™ extrusion technology.

The BLUEWAVE dispersion process

The BLUEWAVE dispersion process

 

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by Gerhard Bleys on June 24, 2016  •  Permalink
Posted in dispersions, Flexible Foams
Tagged , , , , , , , , , , ,

Posted by Gerhard Bleys on June 24, 2016

https://purpatents.com/2016/06/24/novel-cellopener-for-flexible-and-viscoelastic-pu-foams/

Polyols from Proteins

Patent Title: POLYOLS FROM PROTEIN BIOMASS

 Number/Link: WO2016/094859

Applicant/Assignee: Inventors

Publication date: 16-06-2016

Gist”: Transamidation of protein with diamines followed by carbonation

Why it is interesting: Currently most renewable polyols are based on natural oils (NOPs) like soy-oil, but it is also possible to make polyols from proteins. According to this invention this can be accomplished by first cleaving the protein amide bonds by transamidation with an excess of low molecular weight polyamines using a boric acid derivative as catalyst. Then stripping the excess amines and reacting with cyclocarbonates. In an example soy-meal is reacted with ethylenediamine and then with ethylene carbonate resulting in a urethane polyol. The polyols have a high primary OH content, are auto-catalytic and are said to be useful for the production of PU resins and rigid foams.

Diol acoording to the invention. R is an amino acid residue.

Polyol according to the invention. R is an amino acid residue.

 

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by Gerhard Bleys on June 20, 2016  •  Permalink
Posted in Polyols
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Posted by Gerhard Bleys on June 20, 2016

https://purpatents.com/2016/06/20/polyols-from-proteins/

Self-Crosslinkable Polyurethane

Patent Title: Self-Crosslinkable Polymer and Aqueous Dispersion Comprising Particles of the Same

 Number/Link: US2016/0159959

Applicant/Assignee: Valspar Sourcing

Publication date: 9-06-2016

Gist”: Aqueous dispersion of polyurethane having both azide and carbonyl groups in the backbone

Why it is interesting: Properties of water-based PU coatings can often be improved by incorporating olefinically unsaturated groups in the polymer which can be crosslinked using radiation. According to this invention a self-crosslinking (i.e. without the need for radiation) aqueous PU coating composition can be made by incorporating both azide- and carbonyl groups into the PU backbone. When the water evaporates and the film forms these groups will react forming a hydrazone-type bond. The self-crosslinkabe polymer can be prepared by first making an NCO-ended prepolymer containing a reactive double bond, by (e.g.) reacting some of the NCO groups with hydroxyethylmethacrylate (HEMA). This prepolymer is then dispersed in water together with hydrazine and and acrylate like MMA or BA. The hydrazine will react with the NCO groups, introducing azide groups into the backbone.  The acrylate and the prepolymer are then suspension polymerized using an initiator.  The PU backbone can (optionally) contain a water dispersible group – e.g. by incorporating dimethylolpropanoic acid. The self-crosslinkable polymer is said to be especially useful for use in wood coating compositions.

Hydrazine

Hydrazine

 

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by Gerhard Bleys on June 13, 2016  •  Permalink
Posted in Adhesives-Coatings, dispersions
Tagged , , , , , , ,

Posted by Gerhard Bleys on June 13, 2016

https://purpatents.com/2016/06/13/self-crosslinkable-polyurethane/

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