All posts tagged Construction

Polyurethane OCF Systems with Low Monomeric Isocyanate Content

Title: IMPROVED POLYURETHANE FOAM COMPOSITION

 Number/Link: WO2013/072380

Applicant/Assignee: SOUDAL

Publication date: 23-05-2013

Gist”: Use of mono-alcohols to reduce monomeric isocyanate content in OCF systems.

Why it is interesting: OCF , or one component foam (or froth) systems are isocyanate ended prepolymers, mixed with organic blowing agents and other additives like catalysts. They are often prepared directly into pressure cans and are mostly used in construction as adhesives and sealants.  Curing happens by reaction with ambient moisture. Recent changes in legislation has forced OCF producers to drop the amount of free monomeric isocyanate in their systems.  In this invention OCF systems with less than 1% free monomeric MDI are produced by reacting a conventional diol, a polymeric/monomeric MDI mixture and a relatively low MW monol (2-ethyl-hexanol in the examples).  The monol allows to produce prepolymers with low NCO content and low free MDI by preventing chain extension and therefore avoiding extreme viscosity build-up.

OCF system in pressure can.

OCF system in pressure can.

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by Gerhard Bleys on May 28, 2013  •  Permalink
Posted in Adhesives-Coatings, Rigid Foams
Tagged , ,

Posted by Gerhard Bleys on May 28, 2013

https://purpatents.com/2013/05/28/polyurethane-ocf-systems-with-low-monomeric-isocyanate-content/

Hybrid PU-PF Rigid Foams

Title: RIGID POLYURETHANE FOAM

 Number/Link: EP2591034A1

Applicant/Assignee: BASF

Publication date: 15-05-2013  (priority PCT/EP)

Gist”: Use of novolac polyols in rigid (spray) foams to improve reactivity and flammability properties.

Why it is interesting: ‘Novolacs’ are phenol-formaldehyde (PF) resins which are produced at a p:f ratio of  >1 (as opposed to ‘resols’ where this ratio is <1) Novolacs are therefore phenol (OH) ended and can be used together with isocyanates to prepare hybrid polyurethanes. In this case novolacs with a functionality of about 4-8 are used together with conventional rigid foam polyol(s) in which the novolacs are dissolved (after heating and opt. melting) in an amount of about 40%. Together with polymeric MDI, water and conventional additives rigid (spray) foams are produced with improved flammibility, smoke, scorching and reactivity properties.

Novolac resin

Novolac resin

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by Gerhard Bleys on May 22, 2013  •  Permalink
Posted in Rigid Foams
Tagged , , , ,

Posted by Gerhard Bleys on May 22, 2013

https://purpatents.com/2013/05/22/hybrid-pu-pf-rigid-foams/

Nanoporous Insulation

Title: INORGANIC NANOPOROUS PARTICLES WITH WATER DISPERSIBLE POLYURETHANE BINDER

 Number/Link: US2013091682

Applicant/Assignee: Dow

Publication date: 18-04-2013  (priority 2012- PCT/CN)

Gist”:  Flexible nanoporous insulation article made by binding aerogel particles with water-based polyurethane binder.

Why it is interesting: Nanoporous  materials are a big trend in insulation technology. Because monolithic aerogel parts are difficult to make and difficult to use, much research focuses on the use of nanoporous (aerogel, xerogel…) particles instead. This invention uses uncoated silica aerogel particles together with an aqueous PU binder.  The particles are sufficiently hydrophobic to prevent water ingress in the pores. The PU binder is based on aliphatic isocyanate and contains dimethylolpropionic acid to make it water-dispersible. The resulting material contains about 95% aerogel particles and has a density of about 100 kg/m3.

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by Gerhard Bleys on April 23, 2013  •  Permalink
Posted in Adhesives-Coatings, composites
Tagged , ,

Posted by Gerhard Bleys on April 23, 2013

https://purpatents.com/2013/04/23/nanoporous-insulation/

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