All posts by Gerhard Bleys

Hydrophobic Thermoplastic Polyurethanes

Title: POLYURETHANE

Number/Link: US2015/0119535

Applicant/Assignee: Nippon Soda

Publication date: 30-04-2015 (priority PCT/JP)

“Gist”: TPU based on a ‘hybrid’ polybutadiene-polyester polyol and an asymmetric isocyanate

Why it is interesting: According to this invention, TPUs with excellent water-resistance can be prepared from a polyol which is made by reacting a polybutadiene diol with a mole weight of a few 1000 with a cyclic ester monomer, up to a mole weight of about 5000 to 15000 (preferred). The resulting ‘hybdrid’ (polyester-polybutadiene-polyester) polyol is then prepolymerized with a surplus of an assymetric di-isocyanate. Finally the prepolymer is reacted with a chain extender to make the TPU. In the examples polybutadiene diols are reacted with ε-caprolactone and then with IPDI or 2,4-TDI. The chain extender used is 1,4-butanediol. Interesting materials and (but) relatively soft as would be expected.

Caprolactone

Polyurethane Rigid Foam Containing Lignin

Title: COMPOSITIONS OF PHENOLIC BIOPOLYMERS

Number/Link:WO2015/055662

Applicant/Assignee: Solvay

Publication date: 23-04-2015

“Gist”: Lignin is emulsified in a halogenated polyol and then used to prepare rigid foams.

Why it is interesting: This case is about yet another attempt to incorporate lignin into polyurethane materials. In this invention lignin is dispersed in a halogenated polyol using a suitable milling process. The polyol is preferably a brominated ‘rigid’ polyether. The dispersed lignin (pref.) has a (d90) mean particle size of less than 100μm and is used in an amount of up to about 50% on the brominated polyether. The lignin dispersion can then be used together with other polyols in rigid foam formulations. The resulting foams should have improved flammability properties and the lignin is said to have no negative effect on thermal insulation properties.

Part of a typical lignin structure

Soft, High Resilience Polyurethane Elastomers

Title: URETHANE FOAM RUBBER AND COMPOSITION FOR FORMING URETHANE FOAM RUBBER

Number/Link: US20150105485

Applicant/Assignee: Yamaha

Publication date: 16-04-2015

“Gist”: Use of carbodiimide-MDI to make soft high resilience elastomers

Why it is interesting: According to this patent application, soft, high-resilient PU elastomers with a density higher than 300 kg/m³ can be prepared from a diisocyanate, a polyether polyol with a molecular weight of about 1000 to 4000 together with some polymeric MDI. The invention being, that the diisocyanate needs to have an “atom number minimum bond path” between the two NCO groups of at least 11. Examples of such diisocyanates would be α,ω-undecane- (or dodecane- or tridecane- etc.) diisocyanates, propylene-1,3-di(1,4-cyclohexylene diisocyanate) but also carbodiimide modified MDI which is preferred. Examples are given of 440 kg/m³ elastomers with a ball rebound of 81 and an Asker C hardness of 44 at temperatures ranging from -20°C to 50°C, based on a polyTHF diol with a MW of 2000 and a carbodiimide modified MDI. No other isocyanates are used in the examples, so it appears to me that the “atom number minimum bond path” is just an attempt to make this case new and patentable. Not very convincing. I would like to see an example with tridecanediisocyanate.

Carbodiimide modified MDI species

Innovation in Polyurethanes

All posts by Gerhard Bleys

Hydrophobic Thermoplastic Polyurethanes

Polyurethane Rigid Foam Containing Lignin

Soft, High Resilience Polyurethane Elastomers

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