All posts tagged renewable materials

PLA-PPG-PU Block Copolymers

Title: LACTIDE COPOLYMER, METHOD FOR PREPARING SAME, AND RESIN COMPOSITION COMPRISING SAME

 Number/Link:US2015/0284516

Applicant/Assignee: LG Chem

Publication date: 8-10-2015 (Priority PCT/KR)

Gist”: Polyether-polylactide block copolymers are prepared using ROP and then extended with isocyanates

Why it is interesting: Polylactic acid (PLA) is a well known renewable and biodegradable polymer often used in the form of films or sheets for disposable packaging. The polymer is however not very flexible and the films have poor mechanical properties. According to this invention both flexibility and mechanical properties can be greatly improved by making polyether-polylactide copolymers and then extending these using an isocyanate with a functionality of more than 2. The copolymers are made by ring-opening polymerization of lactide monomer using a polyether diol as a ‘macro’ initiator together with a specific catalyst. In the examples an excess L-lactide monomer is used which is reacted with a 4000 to 6000 mole weight polypropylene glycol, resulting in a block copolymer with a Mw of more than 100,000.  The block copolymer is then reacted with a mixture of MDI and hexamethylenediisocyanate isocyanurate, after which the residual lactide is removed.

L-Lactide

L-Lactide

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by Gerhard Bleys on October 9, 2015  •  Permalink
Posted in Elastomers
Tagged , , , , ,

Posted by Gerhard Bleys on October 9, 2015

https://purpatents.com/2015/10/09/pla-pe-pu-block-copolymers/

Insulating Wood-Aerogel Composites

Title: REINFORCED ORGANIC NATURAL FIBER COMPOSITES

 Number/Link: WO2015/144267

Applicant/Assignee: Huntsman

Publication date: 1-10-2015

Gist”: Aerogel particles are incorporated in composite wood boards

Why it is interesting: Composite wood products (OSB, MDF..) are  well known and popular construction materials which are produced by compressing wood fibers (or flakes and the like) together with a binder like e.g. a polymeric MDI. Typically these materials show thermal conductivity values of about 50 mW/m.K at densities of around 200 kg/m³.  According to this invention these insulation values can be significantly improved by incorporating (a large amount of) hydrophobic nanoporous particles and binding the composite with an in-water emulsified isocyanate. In the examples silica aerogel particles and wood fibers are mixed an bonded with an emulsifiable MDI. The amount of particles ranges from about 25 to 50% (w/w) resulting in composites with densities below 200 kg/m³ and insulation values of about 20 to 30 mW/mK.

Medium density fibreboard (MDF).

Medium density fibreboard (MDF).

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by Gerhard Bleys on October 2, 2015  •  Permalink
Posted in Adhesives-Coatings, composites
Tagged , , , , , , , , , , , , ,

Posted by Gerhard Bleys on October 2, 2015

https://purpatents.com/2015/10/02/insulating-wood-aerogel-composites/

PU Rigid Foams from Biomass Proteins

Title: POLYOLS FROM BIOMASS AND POLYMERIC PRODUCTS PRODUCED THEREFROM

 Number/Link:WO2015/105542

Applicant/Assignee:  Inventors

Publication date: 16-07-2015

Gist”: Soy bean proteins are hydrolysed and reacted with diamines and cylocarbonates to produce “rigid” polyols.

Why it is interesting: During recent years a lot of research has been done on the use of renewable raw materials in polyurethanes.  Most of this research was on the use of natural oils despite the fact that the availability of biomass proteins is much higher. Soybeans for example contain about twice as much protein (about 38% w/w) than oil (18%) and the price is about half that of the oil. According to this invention soybean proteins are hydrolysed into amino acids which are then reacted with ethylene diamine to make amine-ended monomers.  These monomers are reacted with a cyclocarbonate (ethylene carbonate or glycerol carbonate) resulting in a mixture of hydroxyurethane oligomers. The mixture is a low viscous liquid with high hydroxyl value useful for the production of rigid foams.

Reaction sequence according to the invention

Reaction sequence according to the invention

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by Gerhard Bleys on July 17, 2015  •  Permalink
Posted in Polyols, Rigid Foams
Tagged , , , , , ,

Posted by Gerhard Bleys on July 17, 2015

https://purpatents.com/2015/07/17/pu-rigid-foams-from-biomass-proteins/

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