All posts tagged glass transition

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

Carbodiimide modified MDI species

 

 

 

 

Leave a comment
by Gerhard Bleys on April 17, 2015  •  Permalink
Posted in Elastomers
Tagged , , , , ,

Posted by Gerhard Bleys on April 17, 2015

https://purpatents.com/2015/04/17/soft-high-resilience-polyurethane-elastomers/

Classic PU Patent of the Month: Bayer on Viscoelastic Flexible Foams (1988)

Title: Process for the preparation of cold-hardening flexible polyurethane foams having excellent deadening properties.

 Number/Link: EP0331941

Applicant/Assignee: Bayer

Publication date: 13-09-1989

Gist”: Highly damping flexible foams are made using a mixture of three specific polyols.

Why it is interesting: “Visco” or “memory” foams are currently known especially for their use in matresses and pillows.  Originally however these “dead” foams were developed as vibration damping materials for acoustic applications. The invention is based on the use of three specific polyols: (a) a ‘normal’ PO/EO-tipped triol with a hydroxyl value of about 28, (b) a ‘rigid’ all-PO triol with OHv of about 350 and (c) a ‘high EO’ triol with an EO content of about 75% and OHv of 36. The polyols are used in a ratio of about 25:15:60 (a:b:c) together with either TDI or MDI. Because the polyols are relatively immiscible the resulting foams have a soft-phase glass transition which is ‘smeared’ out over a temperature range controlled by polyol (a) at the low end and by (c) at the high end – ranging e.g. from -30°C to +10°C. This wide glass transition in turn results in a very wide damping frequency range.  A very clever idea that has been copied many times.

Polyurethane "memory foam"

Polyurethane “memory foam”

Leave a comment
by Gerhard Bleys on March 16, 2015  •  Permalink
Posted in Classic PU Patent of the month, Flexible Foams
Tagged , , , , , , , , , , ,

Posted by Gerhard Bleys on March 16, 2015

https://purpatents.com/2015/03/16/classic-pu-patent-of-the-month-bayer-on-viscoelastic-flexible-foams-1988/

Particle-Reinforced Thermoplastic Polyurethane

Title: COMPOSITION AND ARTICLE COMPRISING THERMOPLASTIC POLYURETHANE AND PARTICULATE ENGINEERING POLYMER

 Number/Link: WO2015/031292

Applicant/Assignee: SABIC

Publication date: 5-03-2015

Gist”: TPU is reinforced with ultrafine particles made from engineering thermoplastics having a melting point of over 200°C.

Why it is interesting: Particulate polyarylsulfone, polyimide, poly(phenylene sulfide) or polyamide, with a melting point or glass transition higher than 200°C and average particle size between 5 and 200 μm, is melt-blended with TPU at a temperature below 200°C and in an amount of 10-30% (w/w).  Alternatively the particles could be mixed (“slurried”) with the polyol and/or isocyanate used to produce the TPU.  The resulting composite is said to have increased hardness, tensile strength and heat resistance.
Sabic is becoming quite active in polyurethane innovation and is apparently looking for synergies with its engineering thermoplastics business.

Poly (1,4-phenylene sulfide) (PPS)

Poly (1,4-phenylene sulfide) (PPS)

Leave a comment
by Gerhard Bleys on March 6, 2015  •  Permalink
Posted in composites, dispersions, Thermoplastics
Tagged , , , , , , , , ,

Posted by Gerhard Bleys on March 6, 2015

https://purpatents.com/2015/03/06/particle-reinforced-thermoplastic-polyurethane/

« Older Posts
Newer Posts »

  • Pages

  • Categories

  • Enter your email address to follow this blog and receive notifications of new posts by email.

    Join 259 other subscribers

  • Follow Innovation in PU on Twitter