Add to ORKGABSTRACT: High molecular weight polyether polyols formed by the poly-merization of epoxides, especially propylene oxide, using conventional KOH catalysis contain high levels of unsaturation. This unsaturation is in the form of allyl and isopropenyl end groups and results in a loss of functionality. A diol that ideally has a functionality of 2.0 can be as low as 1.70 for a conventional 4000 molecular weight polyol. As the molecular weight increases the func-tionality decreases. Since the unsaturation is a function of molecular weight, a limiting molecular weight will be reached where further propylene oxide fails to add to the chain and to increase molecular weight. High molecular weight polyether diols containing low unsaturation were pre-p...
Several new polyether-diols were prepared by ring-opening polymerization of monosubstituted oxiranes...
The present thesis discusses aspects concerning the catalyzed synthesis of polyols. Polyols represen...
Synthesis of Novel Polycarbonate Polyols: Jeff Hernandez, Bernard Knudsen, J.P. Harmon* Abstract: P...
High molecular weight semi crystalline thermoplastic poly(ester urethanes), TPEUs, were prepared fro...
[[abstract]]Some known polyurethane (PU) elast6mers prepared from polyester polyols based on toluene...
<正> Copolymer of tetrahydrofuran (THF) and propylene oxide (PO) of the medium molecular weight...
Novel oligomeric polyols were synthesised from epoxidised methyl oleate (EMO) and epoxidised palm ol...
We report a method to synthesize ultra-high-molecular-weight poly(1,3-dioxolane) (UHMW pDXL), a chem...
Biobased polyols were synthesized from reaction between epoxidized soybean oil and lactic, glycolic,...
This study depicts the investigations of the effect of composition of aromatic polyester polyol prod...
Contains fulltext : 48424.pdf (publisher's version ) (Closed access)Polyurethanes ...
A series of hyperbranched polyesters were incorporated by the chemical reaction of the dimethylolpro...
A series of novel amphiphilic block polyurethanes (PUHE) have been successfully synthesized by solut...
This article is under embargo until January 2016 per publisher policy.Bio-based polyols from epoxidi...
The conventional synthetic route to urethane polymers involves the use of hazardous dflsocyanates wh...
Several new polyether-diols were prepared by ring-opening polymerization of monosubstituted oxiranes...
The present thesis discusses aspects concerning the catalyzed synthesis of polyols. Polyols represen...
Synthesis of Novel Polycarbonate Polyols: Jeff Hernandez, Bernard Knudsen, J.P. Harmon* Abstract: P...
High molecular weight semi crystalline thermoplastic poly(ester urethanes), TPEUs, were prepared fro...
[[abstract]]Some known polyurethane (PU) elast6mers prepared from polyester polyols based on toluene...
<正> Copolymer of tetrahydrofuran (THF) and propylene oxide (PO) of the medium molecular weight...
Novel oligomeric polyols were synthesised from epoxidised methyl oleate (EMO) and epoxidised palm ol...
We report a method to synthesize ultra-high-molecular-weight poly(1,3-dioxolane) (UHMW pDXL), a chem...
Biobased polyols were synthesized from reaction between epoxidized soybean oil and lactic, glycolic,...
This study depicts the investigations of the effect of composition of aromatic polyester polyol prod...
Contains fulltext : 48424.pdf (publisher's version ) (Closed access)Polyurethanes ...
A series of hyperbranched polyesters were incorporated by the chemical reaction of the dimethylolpro...
A series of novel amphiphilic block polyurethanes (PUHE) have been successfully synthesized by solut...
This article is under embargo until January 2016 per publisher policy.Bio-based polyols from epoxidi...
The conventional synthetic route to urethane polymers involves the use of hazardous dflsocyanates wh...
Several new polyether-diols were prepared by ring-opening polymerization of monosubstituted oxiranes...
The present thesis discusses aspects concerning the catalyzed synthesis of polyols. Polyols represen...
Synthesis of Novel Polycarbonate Polyols: Jeff Hernandez, Bernard Knudsen, J.P. Harmon* Abstract: P...