All posts in category Elastomers

Hydrolysis Resistant Polyester Polyurethane

Title: A POLYESTER POLYURETHANE MATERIAL WITH LONG TERM HYDROLYSIS RESISTANCE

 Number/Link: WO2014114614

Applicant/Assignee: Bayer

Publication date: 31-07-2014

Gist”: Hydrolysis resistant polyurethane elastomers can be prepared from sterically hindered polyester polyols together with a perchlorate salt.

Why it is interesting: Because of their high mechanical properties and abrasion resistance, polyester-based polyurethane elastomers are a material of choice in e.g. the footwear and automotive industries. Main drawback however is their susceptibility to hydrolysis which causes loss of physical properties in moist environments.  According to the current invention, hydrolysis resistance can be greatly improved by using a specific polyester polyol together with a perchlorate salt (e.g. 0.3% sodium perchlorate on the total composition). The polyester polyol is based on a diacid (e.g. adipic acid) and a mixture of diols one of which contains alkyl side groups (e.g. a mixture of butanediol and neopentylglycol).
The invention is actually a combination of two known ‘tricks’:  the neopentyl glycol will introduce some hydrophobicity and steric hindrance into the polyester backbone, and the perchlorate may have a weak coordination with the hydrolysable ester bonds thus forming a steric protection layer (at least according to Bayer’s own WO2013/030147). Because both effects are known and published I doubt that this is patentable.

Neopentylglycol

Neopentylglycol

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by Gerhard Bleys on August 4, 2014  •  Permalink
Posted in Elastomers, Polyols
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Posted by Gerhard Bleys on August 4, 2014

https://purpatents.com/2014/08/04/hydrolysis-resistant-polyester-polyurethane/

Classic PU Patent of the Month: The First SMPUs (1988)

Title: Shape memory polymer foam.  – and – Shape memory polyurethane elastomer molded article.

 Number/Link: EP0361418 and EP0361419

Applicant/Assignee: Mitsubishi Heavy Industries

Publication date: 27-09-1989

Gist”: The first shape memory polyurethane foams and elastomers

Why it is interesting: Shape memory polymers are so-called “smart materials” that remain in a deformed shape until a trigger (usually an increase in temperature) makes them return to their original  (“memorized”) shape. In the 1980s these materials were more of a curiosity, only used in some niche applications such as heat shrinkable tubing. Currently however a lot of academic and industrial research is done on these materials, mostly driven by medical applications (e.g. stents, orthopedic casts, self-tightening sutures etc). And not surprisingly a lot of current SMPs are based on polyurethanes (SMPUs).  Interest in shape memory materials was stimulated significantly by the invention of the first SMPUs by Mitsubishi H.I. Ltd. They filed two patents covering both shape memory foams and elastomers. The first SMPUs were based on a di-isocyanate like 4,4′-MDI, a diol like PPG700 and a chain extender like bisphenol-A, and were formulated over a range of Tg’s. The foamed materials were blown with a physical blowing agent (i.e. not water) so that all materials can be considered thermoplastics.

SMP transition from temporary shape (spiral) to permanent shape (rod). (Angew. Chem. Int. Ed. 2002, 41, 2034 ± 2057)

SMP transition from temporary shape (spiral) to permanent shape (rod). (Angew. Chem. Int. Ed. 2002, 41, 2034 ± 2057)

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by Gerhard Bleys on July 15, 2014  •  Permalink
Posted in Classic PU Patent of the month, Elastomers, Flexible Foams, Rigid Foams, Thermoplastics
Tagged , , , , , , ,

Posted by Gerhard Bleys on July 15, 2014

https://purpatents.com/2014/07/15/classic-pu-patent-of-the-month-the-first-smpus-1988/

Ionic Liquids for Improved Hydrolysis Resistance of Polyester Polyurethanes

Title: HYDROLYSIS-RESISTANT POLYURETHANE MOULDED ARTICLES MADE OF POLYESTER POLYURETHANE

 Number/Link: WO2014/095438  (German)

Applicant/Assignee: BASF

Publication date: 26-06-2014

Gist”: Polyester polyurethane elastomers containing carbodiimides, together with an ionic liquid and an amine catalyst in a specific ratio, show improved hydrolysis resistance.

Why it is interesting: Polyester PU elastomers show higher mechanical properties compared to polyether elastomers but have have a much worse hydrolysis resistance.  It is well known that the hydrolysis resistance can be improved by using sterically hindered carbodiimides (commercially known e.g. as Stabaxol®).  This invention shows that hydrolysis resistance can be even more improved by using a specific molecular ratio (pref. 0.5 : 1 to 2 : 1)  of  ionic liquid to amine catalyst in combination with the carbodiimides. The effect is apparent from the examples where 1-ethyl-3-methylimidazolium ethylsulfate was used as ionic liquid together with ethylenediamine as catalyst.  No theory or explanation for the effect is given and it is not immediately clear to me how this interesting synergy works.

Ionic liquid as used in the invention

Ionic liquid as used in the invention

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by Gerhard Bleys on June 30, 2014  •  Permalink
Posted in Elastomers
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Posted by Gerhard Bleys on June 30, 2014

https://purpatents.com/2014/06/30/ionic-liquids-for-improved-hydrolysis-resistance-of-polyester-polyurethanes/

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