All posts tagged Construction

Expandable Polyurethane Particles for Insulation Panels

Title: POLYURETHANE-BASED EXPANDABLE POLYMER PARTICLES

 Number/Link: WO2014/006182  (German)

Applicant/Assignee: BASF

Publication date: 9-01-2014

Gist”: Microgranules of TPU/PS copolymer containing pentane can be expanded into insulation panels using standard EPS equipment.

Why it is interesting: Contrary to polystyrene, thermoplastic polyurethane cannot be ‘imbued’ with a physical blowing agent like pentane to make steam-expandable particles. This is due a.o. to the high diffusion rate of pentane (e.g.) in TPU.  BASF have now found that by using a TPU/PS copolymer, expandable particles can be prepared which can be used in standard EPS (expandable polystyrene) equipment to make insulation panels. The TPU used is based on 4,4′-MDI, polyTHF and butanediol such that the vicat softening point is below 80°C.   The TPU, in the form of microgranules (0.5-2mm), is swollen in styrene containing dicumylperoxide, dispersed in water and heated to polymerisation.  A blowing agent like (pref) pentane is added to the dispersion as well. The resulting particles are expandable and can be used to make insulation panels of 50-150 kg/m³.

Expandable Polystyrene.

Expandable Polystyrene.

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by Gerhard Bleys on January 14, 2014  •  Permalink
Posted in Rigid Foams, Thermoplastics
Tagged , , , , , , , , , , , ,

Posted by Gerhard Bleys on January 14, 2014

https://purpatents.com/2014/01/14/expandable-polyurethane-particles-for-insulation-panels/

Improved Nanoporous Insulation Materials

Title: AEROGEL-CONTAINING POLYURETHANE COMPOSITE MATERIAL

 Number/Link: WO2013182506 (German)

Applicant/Assignee: BASF

Publication date: 12-12-2013

Gist”: An aqueous dispersion based on an isocyanate and an isocyanate-reactive vinyl polymer is used to bind aerogel particles into an insulation material.

Why it is interesting: Binding (silica) aerogel (or xerogel or cryogel) particles into insulation panels using aqueous polyurethane binders is known.  See e.g. my previous posts on the subject here, here and here. According to this invention both the insulation and processing properties of existing systems can be improved by using an aqueous dispersion of a vinyl polymer containing isocyanate-reactive side groups, together with an emulsifiable isocyanate. The polyvinyl is preferably water-soluble, the side groups being -OH, -SH, -NH2 or -COOH,  a (preferred) example being poyvinylamine with a molecular weight from 10,000 to 500,000. The isocyanate used is preferably a modified HDI or IPDI.  In the examples materials are shown with densities of about 120 kg/m³ and a thermal conductivity of about 16 mW/m.K.

SLENTITE (TM) aerogel-PU insulation panel by BASF

SLENTITE (TM) aerogel-PU insulation panel by BASF

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by Gerhard Bleys on December 24, 2013  •  Permalink
Posted in composites, dispersions, Rigid Foams
Tagged , , , , , , , , , , , , ,

Posted by Gerhard Bleys on December 24, 2013

https://purpatents.com/2013/12/24/improved-nanoporous-insulation-materials/

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.

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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/

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