All posts tagged fillers

Nanocomposites from PIB-Based Polyurethane and Clay

Title: POLYISOBUTYLENE-BASED POLYURETHANES CONTAINING ORGANICALLY MODIFIED MONTMORILLONITE

 Number/Link: WO/2014/018509

Applicant/Assignee: UNIVERSITY OF AKRON

Publication date: 30-01-2014

Gist”: A small amount of montmorillonite, modified with a quaternary ammonium compound containing an amine group, is incorporated in a polyisobutylene-based TPU.

Why it is interesting: Montmorillonite-type clay is “exfoliated” using a quat. ammonium compound which has an alkyl subsituent containing a primary amine group. The salt group will electrostatically interact with the clay while the amine group will react with isocyanate when used in a polyurethane formulation, thus incorporating the clay into the polymer structure. In an example a (T)PU is made from HMDI, 1,6-hexanediol and a mixture of a 4000MW polyisobutylene diol and a 1000MW PTMO diol. A montmorillonite was exfoliated using trimethyl-1-propylamine ammonium iodide (I¯N+(CH3)3CH2CH2CH2-NH2)  and incorporated in the PU to make the nanocomposite. In an amount of 0.5% (w/w) the clay increases stiffness, mechanical- and creep properties of the PU.  However at higher amounts (2%,5%..) these properties actually deteriorate.

Polymer morphology model according to the invention. (omMMT = organically modified montmorrilonite)

Polymer morphology model according to the invention. (omMMT = organically modified montmorillonite)

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by Gerhard Bleys on February 4, 2014  •  Permalink
Posted in composites, Elastomers, Thermoplastics
Tagged , , , , , , , , , , ,

Posted by Gerhard Bleys on February 4, 2014

https://purpatents.com/2014/02/04/nanocomposites-from-pib-based-polyurethane-and-clay/

Polyurea ‘Nano’-Particles to Improve Properties of Polyurethane Flexible Foams and Elastomers

Title: USE OF POLYUREA NANOPARTICLES AS PERFORMANCE MODIFIERS IN POLYURETHANE MATERIALS

 Number/Link: WO2014/012769

Applicant/Assignee: Huntsman

Publication date: 23-01-2014

Gist”: A dispersion of polyurea particles prepared from 4,4′ MDI, diamine chain extender and a high mole weight monoamine is used to improve mechanical properties of flex foam.

Why it is interesting: Dispersions of polyurea particles with an average diameter of a few hundred nanometer and a Tg>150°C (pref.) can be produced by first reacting a relatively high MW polyether monoamine and a di-isocyanate (optionally dispersed in e.g. polyol) and subsequently adding a diamine chain extender. The dispersion is then used in a flexible foam or elastomer formulation, such that the amount of particles in the material is about 1-5% (w/w). In an example a 2000MW EO/PO monoamine was used together with 4,4′-MDI and a diamine chain extender to produce a particle dispersion in polyol, which was then used in polyurethane formulations. The particles do seem to have a positive effect on mechanical properties, however, the results for flex foam are clouded because of a sharp increase in material density compared to the reference. This density increase may well be due to a cellopening effect as described in WO2007/104623  in which a similar particle dispersion is used.

Polyethermonoamine as used in the invention.

Polyethermonoamine as used in the invention.

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by Gerhard Bleys on January 27, 2014  •  Permalink
Posted in dispersions, Elastomers, Flexible Foams, Polyols
Tagged , , , , , , , , , , , ,

Posted by Gerhard Bleys on January 27, 2014

https://purpatents.com/2014/01/27/polyurea-nano-particles-to-improve-properties-of-polyurethane-flexible-foams-and-elastomers/

Polyurethane Foam Containing Iron Particles for Improved Oil Absorption

Title: ABSORBENT MATERIAL

 Number/Link: WO2014/008554

Applicant/Assignee: Advanced Simplicity Technologies

Publication date: 16-01-2014

Gist”: Incorporation of iron particles improves the oil-absorbing capacity of PU foams.

Why it is interesting: The mineral-oil absorbing capacity of PU foam is well known and documented (see e.g. WO/1995/031402  and WO/1999/005066 ).  Current invention claims that the oil absorbing capacity of the foam can be greatly improved by incorporating inorganic particles, esp. metallic iron or silica. The particle size of the particles is chosen such as to protrude the foam cell walls so that they are exposed inside the foam pores (pref. 50 to 200μm). In an example an MDI-based  foam containing 70% (w/w) of iron powder was shown to absorb about 10g of oil per gram of foam.

Oils Spill at Sea

Oils Spill at Sea

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by Gerhard Bleys on January 24, 2014  •  Permalink
Posted in composites, Flexible Foams, Rigid Foams
Tagged , , , , ,

Posted by Gerhard Bleys on January 24, 2014

https://purpatents.com/2014/01/24/polyurethane-foam-containing-iron-particles-for-improved-oils-absorption/

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