Aromatic Isocyanates from Biorenewables

Title: PROCESS FOR PREPARING POLYISOCYANATES FROM BIOMASS

Number/Link: US2012302786

Applicant/Assignee: BASF

Publication date: 29-11-2012

“Gist”: Lignin is reduced to hydroxy- or alkoxy monocyclic aromatics by pyrolysis (e.g.), condensed with formaldehyde, aminated and subsequently phosgenated to produce isocyanates.

Why it is interesting: The use of renewable raw materials has been a steeply rising trend in the polyurethane science- and patent literature of the last few years. Up to now the research has almost always been related to renewable polyols usually based on ‘vegetable’ oils like castor oil, soy oil and a host of other naturally occuring materials. BASF is the first to succeed in making -the economically most important- aromatic isocyanates from renewable raw materials, viz. lignin, which is an abundant and cheap by-product from the paper industry. The lignin is first broken down to monocyclic aromatics containing hydroxyl groups, then condensed with formaldehyde to di- or poly-hydroxyaromatics which are then turned into amines. The amines can be phosgenated to yield isocyanates. In the first claim the renewable aromatic amines are defined by their C14 to C12 ratio – establishing their non-fossil origin. Very clever.

Flexible Polyurethane Foams containing Gel Particles: an Alternative to “Memory Foams”?

Title: COMPOSITE MATERIAL FOR MAKING ARTICLES OUT OF POLYURETHANE DOPED WITH POLYMERIC GEL AND THE PROCEDURE FOR MAKING IT

Number/Link: WO2012160515

Applicant/Assignee: NEW WIND S.R.L.

Publication date: 29-11-2012

“Gist”: Viscoelastic foams produced by dispersing (silicon?) gel particles into the polyol stream.

Why it is interesting: Viscoelastic or “memory foams” are popular in the bedding industry. This case claims to improve upon the current technology by incorporating into the foam matrix 5 to 20% of ‘gel particles’ with a size of 1 to 5mm. Advantages over curent memory foams mentioned are a lower glass transition temperature and a cool or “fresh” feel to the touch. The ‘polymeric gels’ are however ill defined in the text and according to claim 6 “said silicone gel is a SEBS rubber”(?). While being an interesting idea the case has little chance of being granted according to the examiners report.

High Resilience Flexible Polyurethane Foams containing Castor Oil

Title: Highly elastic polyurethane foams containing castor oil

Number/Link: EP2527381

Applicant/Assignee: BASF

Publication date: 28-11-2012

“Gist”: Flexible foam with more than 50% ball rebound based on MDI, partly prepolymerized conventional EO/PO polyol and about 15% castor oil.

Why it is interesting: Castor oil was one of the first renewable raw materials used in PU because it contains hydroxyl groups and can therefore be used ‘as such’. Use of (unmodified) castor oil in PU will however result in an increased glass transition temperature and therefore in low resilient materials. It has therefore been patented before in low resilient “memory foam” compositions. BASF now claim foams with >50% resilience but only 15% castor oil is used in the examples. The actual ‘trick’ is prepolymerizing part of conventional polyol which does indeed seem to increase resilience with a few percent, probably due to some subtle phase effect.

Major Component of Castor Oil (Wikipedia)

Innovation in Polyurethanes

Aromatic Isocyanates from Biorenewables

Flexible Polyurethane Foams containing Gel Particles: an Alternative to “Memory Foams”?

High Resilience Flexible Polyurethane Foams containing Castor Oil

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