Properties and applications of polyurethanes

We review the research on preparation, morphology, especially physical properties and applications of polyurethane (PU)/carbon nanotube (CNT) nanocomposites. First, we provide a brief introduction about the preparation of PU/CNT nanocomposites. Then, the functionalization and the dispersion morphology of CNTs as well as the structures of the nanocomposites are also introduced. After that, we discuss in detail the effects of carbon nanotubes on the physical properties (including mechanical, thermal, electrical, rheological and other properties) of PU/CNT nanocomposites. The potential applications of these nanocomposites are also addressed. Finally, the challenges and the research that needs to be done in the future for achieving high-performance polyurethane/carbon nanotube nanocomposites are prospected. 

Advances in Polyurethane Biomaterials explores recent research and reviews on the properties and applications of polyurethanes for biomedical applications. 

This book brings together a thorough review of advances in properties and applications of polyurethanes for biomedical applications. The first set of chapters provides an important overview of the fundamentals of this material with chapters on properties and processing methods of polyurethanes. Further sections cover significant uses such as vascular, tissue engineering, and drug delivery applications. 

Hyashi, S. (1993), Properties and applications of polyurethane. International Progress in Urethanes, 6,90-115. 

Properties and Applications of Cross-linked Polyurethane Rubbers... 

Properties and applications of cross-linked polyurethane rubbers... 

Hie most representative member of this class of polyesters is the low-molar-mass (M 1000-3000) hydroxy-terminated aliphatic poly(2,2/-oxydiethylene adipate) obtained by esterification between adipic acid and diethylene glycol. This oligomer is used as a macromonomer in the synthesis of polyurethane elastomers and flexible foams by reaction with diisocyanates (see Chapter 5). Hydroxy-terminated poly(f -caprolactonc) and copolyesters of various diols or polyols and diacids, such as o-phthalic acid or hydroxy acids, broaden the range of properties and applications of polyester polyols. 

Classification. Flexibie urethane foams have the largest market of all polyurethane products. The production properties and applications of various flexible urethane foams are described in the following sections. Flexible urethane foams are defined as open-cell urethane foams having the property of complete recovery immediately after compression. They can be classified into two kinds, i.e., polyether foams and polyester foams. Polyether foams are further classified as follows conventional flexible foams, high-resilience flexible foams (HR foams), cold-molded foams, super-soft foams, and viscoelastic foams. 

Abstract This chapter describes vegetable oil-based polymer nanocomposites. It deals with the importance, comparison with conventional composites, classification, materials and methods, characterisation, properties and applications of vegetable oil-based polymer nanocomposites. The chapter also includes a short review of polymer nanocomposites of polyester, polyurethanes and epoxies based on different vegetable oils and nanomaterials. The chapter shows that the formation of suitable vegetable oil-based polymer nanocomposite can be considered to be a means of enhancing many of the desirable properties of such polymers or of obtaining materials with an intrinsically new set of properties which will extend their utility in a variety of advanced applications. Vegetable oil-based shape memory hyperbranched polyurethane nanocomposites can be sited as an exampie of such advanced products. 

E. Weigand, Properties and Applications of Recycled Polyurethanes in J. Brandrup, M. Bittner, W. Michaeli, and G. Menges, eds.. Recycling and Recovery of Plastics, Hanser/Gardner, Cincinnati, 683-701 (1996). 

Properties and Applications of Thermoplastics Polyurethane Blends 757 TPU/PVDF BLENDS... 

Krdl P. Synthesis methods, chemical structures and phase structures of linear polyurethanes. Properties and applications of linear polyurethanes in polyurethane elastomers, copolymers and ionomers. Prog Mater Sci 2007 52(6) 915-1015. 

Many isocyanates have good adhesive properties and one of them, triphenyl-methane-pp /7"-triyl tri-isocyanate, has been successfully used for bonding of rubber. Isocyanates are, however, rather brittle and somewhat limited in application. Somewhat tougher products are obtained from adhesives involving both polyols and isocyanates, i.e. polyurethane-type materials. The major application of these materials to date is in the boot and shoe industry. 

In another kinetics study, Huang and Chen immobilized jack bean urease in the form of a thin film on the surface of a reticulated polyurethane foam. The residual apparent activity of the urease after immobilization was about 50%. The good hydrodynamic properties and flexibility of the support were retained in solution after immobilization. Urea hydrolysis was examined in both a batch squeezer and circulated flow reactor. The results suggest potential for practical applications in various reactors. 

The traditionally quoted properties, for example, tensile strength and hardness, are often not the best for selecting the correct system to use. In the section on properties, the importance of using the correct property for the application is explained. The application of polyurethanes in various fields is expanded upon and logic for suitability is discussed. The effect of changes to the original application details is dealt with. 

This book series presents in-depth reports on the most important new developments in urethane technology. Volumes 2-5 contain papers written only by Japanese specialists. A number of these papers concern rigid and flexible foams. Polyurethanes and polyisocyanurates are widely used in Japan. The papers cover recent developments in chemistry, processing, properties and applications. 

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