All posts tagged Environment

Rigid Polyurethane Foam Containing Expandable Particles

Title: Highly Insulating Polyurethane Foam and Method for Manufacturing Same

 Number/Link:US2013/0150470

Applicant/Assignee: Cheil Industries

Publication date: 13-06-2013 (priority PCT/KR)

Gist”: Rigid foams comprising thermally expandable particles which penetrate cell walls and which are covered with an infrared absorbing filler show improved insulation properties.

Why it is interesting: The invention claims to improve insulation properties of rigid foams by including about 5% (on the total resin) of organic thermally expandable particles with a diameter of about 5 μm before expansion and of about 50 μm after expansion. A filler chosen from carbon black, graphite, carbon nanotubes and the like is added as well. After the foam is formed the expanded particles penetrate the cell walls, are supposedly covered with the filler and are believed to reduce the radiation component of the thermal conductivity. Foam properties given in the examples show a density of about 35 kg/m³ with a thermal conductivity of about 0.0160 kcal/m.h.ºC (or about 0.019 W/m.K if I converted this correctly).

fig 2 form the patent. Large circles are expanded particles, smaal circles is filler.

Fig 2 form the patent: large circles are the expanded particles, the small circles represent the filler.

Leave a comment
by Gerhard Bleys on June 18, 2013  •  Permalink
Posted in Rigid Foams
Tagged , , , , , , ,

Posted by Gerhard Bleys on June 18, 2013

https://purpatents.com/2013/06/18/rigid-polyurethane-foam-containing-expandable-particles/

More Non-Isocyanate Polyurethanes

Title:  METHOD FOR PREPARING POLY(CARBONATE-URETHANE) OR POLY(ESTER-URETHANE)

 Number/Link: US20130144027

Applicant/Assignee: CENTRE NAT RECH SCIENT; TOTAL RES & TECHNOLOGY

Publication date: 6-06-2013 (priority PCT/EP)

Gist”: Non-isocyanate polycarbonate- or polyester- polyurethane with very high softblock molecular weight produced by “immortal” ring opening polymerization.

Why it is interesting: Non-isocyanate PU systems appear to become a growing trend – at least in scientific and patent literature. In addition to not using phosgene or isocyanates, advantages quoted are improved biodegradability and recyclability.  The current invention teaches the use of “immortal” ringopening polymerization to polymerize 5,6 or 7 membered cyclic carbonates or cyclic esters. This type of ROP is highly efficient and is described in e.g. US2011092664.  The resulting polymer is subsequently modified with anhydrides to a polymer with carboxylic end-groups, which are then reacted with cyclic carbonates bearing hydroxyl groups.  The resulting polymer has a MW of (preferably) 50,000 to 100,000 and can be reacted with polyamines to produce the polyurethanes. See the reaction scheme below.

Reaction sequence according to the invention

Reaction sequence according to the invention

Leave a comment
by Gerhard Bleys on June 11, 2013  •  Permalink
Posted in Adhesives-Coatings, Polyols
Tagged , , , , , ,

Posted by Gerhard Bleys on June 11, 2013

https://purpatents.com/2013/06/11/more-isocyanate-free-polyurethanes-2/

Flexible Polyurethane Foams with Low VOC Emission

Title: Reducing Emissions in Polyurethane Foam

 Number/Link: US2013137787

Applicant/Assignee: Air Products

Publication date: 30-50-2013 (priority PCT/US)

Gist”: Use of reactive amine catalysts without primary hydroxyl groups, together with diacids results in flexible foams with good compression set and low emissions.

Why it is interesting: Reduction of VOC emissions is an important driver in the flexible foam industry and volatile amine catalysts are among the most commonly used additives that need to be removed. Current practice is to use isocyanate-reactive catalysts, sometimes combined with acids to get a ‘delayed-action’ effect which is useful to fill complex moulds. Isocyanate-reactive catalysts act as chain stoppers hoewever and can result in loss of properties, especially fatigue properties like compression set, and the acids used can contribute to the VOC emissions. According to this invention flexible foams with low emissions and with good compression set properties can be made by using a tert-amine catalyst comprising a reactive group which is chosen from amine, amide, urea or sec-hydroxyl ( so no primary hydroxyl) together with a di-acid like maleic-, succinic-, azaleic-, sebacic acid etc. To me it is not immediatly clear why this should work and no mechanism or explanation is given in the application.

DMAPA - a reactive catalysts according to the invention

DMAPA – a reactive catalysts according to the invention

Leave a comment
by Gerhard Bleys on June 4, 2013  •  Permalink
Posted in Flexible Foams
Tagged ,

Posted by Gerhard Bleys on June 4, 2013

https://purpatents.com/2013/06/04/flexible-polyurethane-foams-with-low-voc-emission/

« Older Posts
Newer Posts »

  • Pages

  • Categories

  • Enter your email address to follow this blog and receive notifications of new posts by email.

    Join 259 other subscribers

  • Follow Innovation in PU on Twitter