All posts tagged dispersions

Polyurethane-NCC Composites

Title: POLYURETHANE COMPOSITES COMPRISING NANOCRYSTALLINE CELLULOSE AND METHOD FOR IMPROVING PROPERTIES OF POLYURETHANES THEREOF

Number/Link: WO2014/190428

Applicant/Assignee: Celluforce

Publication date: 4-12-2014

“Gist”: A small amount of nanocrystalline cellulose improves mechanical properties of polyurethanes

Why it is interesting: Nanocrystalline cellulose or NCC is cellulose in the form of nano-scale crystals or fibrils produced from woodpulp. A few years ago NCC was hailed as a disruptive new “wonder material” with the potential to replace metal and make existing plastics obsolete. The current patent application claims the use of NCC in polyurethanes, added in amounts of (preferably) less than 1% to either the polyol or isocyanate stream. Both tensile and elongation values of the PU are said to improve. While this may well be true and NCC is no doubt an interesting material this case is most probably not patentable. Too little, too late.

Nanocrystalline cellulose “whiskers”

Flexible Foams with Enlarged Cell Size

Title: PUR FOAM WITH ENLARGED CELL STRUCTURE

Number/Link: WO2014/170198 (German)

Applicant/Assignee: Evonik

Publication date: 23-10-2014

“Gist”: The cell size of PU flexible foam is enlarged by using microcrystalline wax.

Why it is interesting: Enlarging the cell size of flexible foams can improve comfort properties by enhancing ‘breathabibility’, that is by enhancing airflow and moisture- and heat transport. According to this invention the cell size of flex foams can be increased without affecting foam density or hardness by using a specific type of wax. The wax (preferably) is a microcrystalline wax (as opposed to a paraffinic wax) with a congealing temperature of between 60 and 75°C. The wax is used as a dispersion in a solvent (e.g. a sorbitan ester) in an amount of about 0.05 to 2.0 php.

Cell structure of a flexible polyurethane foam.

Thermoplastic PU-PS Graft Copolymers

Title: POLYURETHANE-BASED POLYMER COMPOSITION

Number/Link: WO2014/147194

Applicant/Assignee: BASF

Publication date: 25-09-2014

“Gist”: TPU microparticles react with styrene monomer resulting in a TPU-PS copolymer.

Why it is interesting: Blends of TPU with polystyrene are known, but compatibility is low and PS to TPU ratio therefore needs to be low as well to prevent ‘delamination’ of injection moulded parts. According to this patent application it is however possible to graft the PS onto TPU such that much higher PS/TPU ratio’s can be obtained. The TPU needs to be MDI-based and have a relatively low hardblock content and softening temperature. Apparently the PS grafts onto the MDI methylene groups which form radicals easily. In an example TPU micropellets are swollen in styrene monomer at low temperature together with dicumulperoxide as a radical initiator. The swollen particles are then dispersed in water together with an emulsifier and heated under pressure to form a 60-40 TPU-PS copolymer. A solvent-based process is also exemplified. The resulting polymers are especially useful for injection moulded parts such as spring-aids.

MDI radical

Innovation in Polyurethanes

All posts tagged dispersions

Polyurethane-NCC Composites

Flexible Foams with Enlarged Cell Size

Thermoplastic PU-PS Graft Copolymers

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