Segmented polyurethanes with 4,4?-bis-(6-hydroxyhexoxy)biphenyl as chain extender. Part 2. Synthesis and properties of MDI-polyurethanes in comparison with 2,4-TDI-polyurethanes

Mix, Renate; Gähde, J.; Goering, H.; Schulz, Gisela L.

doi:10.1002/(sici)1099-0518(19960115)34:1<33::aid-pola3>3.0.co;2-4

Cited by 29 publications

(3 citation statements)

References 7 publications

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“…This, for sure, has a significant impact on the mechanical properties of the materials of which they become a part [31]. For instance, the MDI-based polyurethane foams are more rigid than those made using TDI [32].…”

Section: Introductionmentioning

confidence: 99%

A Review of the Surface Modification of Cellulose and Nanocellulose Using Aliphatic and Aromatic Mono- and Di-Isocyanates

2019

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Nanocellulose has been subjected to a wide range of chemical modifications towards increasing its potential in certain fields of interest. These modifications either modulated the chemistry of the nanocellulose itself or introduced certain functional groups onto its surface, which varied from simple molecules to polymers. Among many, aliphatic and aromatic mono- and di-isocyanates are a group of chemicals that have been used for a century to modify cellulose. Despite only being used recently with nanocellulose, they have shown great potential as surface modifiers and chemical linkers to graft certain functional chemicals and polymers onto the nanocellulose surface. This review discusses the modification of cellulose and nanocellulose using isocyanates including phenyl isocyanate (PI), octadecyl isocyanate (OI), toluene diisocyanate (TDI), diphenylmethane diisocyanate (MDI), hexamethylene diisocyanate (HMDI), and their derivatives and polymers. It also presents the most commonly used nanocellulose modification strategies including their advantages and disadvantages. It finally discusses the challenges of using isocyanates, in general, for nanocellulose modification.

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Section: Introductionmentioning

confidence: 99%

A Review of the Surface Modification of Cellulose and Nanocellulose Using Aliphatic and Aromatic Mono- and Di-Isocyanates

2019

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“…Some structural modifications are thus applicable and conditioned by the effect of structural parameters, such as chemical nature of mesogens, [2,3] substituents on mesogens or spacers, [4,5] chemical nature of spacers, [6,7] spacer length, [8][9][10] linking group between the spacer and mesogen, [11] copolymer composition, [12] copolymer sequence, [13,14] and intermolecular hydrogen bonds. [15][16][17] The incorporation of flexible spacers into the main chain [18,19] and the chemical nature of mesogenic units are important to the properties of TLCPs. So far, the incorporation of flexible spacers in the mesogenic groups has been mostly realized by two ester linkages or ether linkages; [20][21][22] only a few reports utilize two different linkages.…”

Section: Introductionmentioning

confidence: 99%

Preparation of Main-Chain Thermotropic Polyesters With Two Types of Mesogens Connected Alternatively by Aliphatic Spacers

Guo

Huang

Zhang

et al. 2010

Journal of Macromolecular Science, Part B

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A homologous series of main-chain thermotropic polyesters (PBTn, n = 2,4,6) containing biphenyl and triad aromatic ester mesogenic units interconnected by n-methylene spacers in the main chain were prepared from terephthaloyl bis(4-oxybenzoyl chloride) (TOBC) and 4,4 -bis(ω-hydroxyalkyloxy)biphenyls (n-BP, n = 2, 4, 6) by solution polycondensation. The chemical structures of the monomers and PBTn were characterized by spectroscopic techniques and elemental analysis. The solubility, supermolecular structures, thermal and liquid crystalline properties of PBTn were investigated by differential scanning calorimetry (DSC), polarizing microscopy (PLM), small-angle X-ray scattering (SAXS), thermogravimetric analyses (TGA), and wide-angle X-ray diffraction (WAXD), and they were found to be closely dependent on the length of the methylene spacers. The increasing methylene units led to improved solubility, broader liquid crystalline range, reduced mesophase-isotropic transition point, higher thermal stability, and decreasing crystallinity. The decomposition temperatures (5% mass loss) of the polymers were above 380 • C in nitrogen atmosphere and only PBT4 and PBT6 exhibited smectic mesophases as well as high viscosity in the mesophase.

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“…A detailed study of the morphology of polyurethane-polystyrene IPNs was carried out by Song et al [22]. The synthesis and properties of diphenyl methane diisocyanate (MDI)-based polyurethanes were investigated by Mix et al [23]. Lee et al [20] studied the rheological changes during polymerization of polyurethane-polyester-based IPNs.…”

Section: Introductionmentioning

confidence: 99%

Characterization of Castor Oil and Diphenyl Methane Diisocyanate-based Polyurethane-Polystyrene Interpenetrating Networks

Singh

Kaushik

Gupta

2005

Journal of Reinforced Plastics and Composites

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Castor oil is an abundant natural polyol. It has been subjected to extensive investigations for polyurethane formation, suitable for a variety of applications. In this work, polyurethane prepolymers have been synthesized by bulk polycondensation of the moisture-free castor oil with diphenyl methane diisocyanate at room temperature. These prepolymers have been then cross-linked in situ with different quantities of styrene to prepare simultaneous interpenetrating polymer networks (IPNs). The composition of the polyurethane and polystyrene IPNs ranges from 10 to 50% by weight. The morphology, mechanical properties, chemical absorption, and swelling behavior of the IPNs prepared have been analyzed to evaluate the effect of styrene content in the IPNs. The tensile modulus improves with increasing quantity of styrene with a maximum at 50%. The absorption of these IPNs is maximum in pyridine and decreases with increasing quantity of styrene up to 40% and a sudden jump has been observed for 50% styrene content. For swelling study, the diffusivity coefficient increases with increasing PS content while sorption coefficient shows a decreasing trend.

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Segmented polyurethanes with 4,4?-bis-(6-hydroxyhexoxy)biphenyl as chain extender. Part 2. Synthesis and properties of MDI-polyurethanes in comparison with 2,4-TDI-polyurethanes

Cited by 29 publications

References 7 publications

A Review of the Surface Modification of Cellulose and Nanocellulose Using Aliphatic and Aromatic Mono- and Di-Isocyanates

A Review of the Surface Modification of Cellulose and Nanocellulose Using Aliphatic and Aromatic Mono- and Di-Isocyanates

Preparation of Main-Chain Thermotropic Polyesters With Two Types of Mesogens Connected Alternatively by Aliphatic Spacers

Characterization of Castor Oil and Diphenyl Methane Diisocyanate-based Polyurethane-Polystyrene Interpenetrating Networks

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