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Polymer manufacturing technology

Radian Corporation Polymer Manufacturing - Technology and Health Effects Noyes Park Ridge, NJ, 1986 Chapter 24, 26. [Pg.190]

Radian Corporation, Polymer Manufacturing, Technology arul Health Effects, Noyes Data Corporation, Park Ridge, NJ, 1986, p. 716. [Pg.119]

The development and optimization of porous supports for chromatographic applications have depended on advances in polymer chemistry together with advances in particle manufacturing technology. Separations that required hours or days to achieve with early SEC supports are now typically performed in less than an hour. The following description of various types of media is presented in the approximate chronological order in which the various media were developed. [Pg.39]

Sometimes, new values are added not only to the polymer itself, but also to the shape or physical state of the processed polymers to maximize the profit opportunity. For example, when a company develops a novel polymeric material and its manufacturing technology, the company may prefer to make their novel polymers available to customers in the form of intermediate consumer products, such as hi performance films or fibers, rather than manufacturing and selling bulk resins to industrial customers. To do so, the company should have a line of technical capabilities from polymer synthesis to consumer product manufacturing. [Pg.108]

Polymers manufactured via single site catalyst technologies, because of the unique chemical catalytic environment, exhibit a more controlled molecular weight distribution and tacticity than seen with Ziegler-Natta catalyst systems. [Pg.49]

Propylene polymer manufacture, catalysts and technologies of, 17 704 Propylene polymers, 17 700. See also Polypropylene history of, 17 704 properties of, 17 704-705 types of, 17 703-704 uses of, 17 705... [Pg.768]

Written by foremost experts in the field from industry and academia, these books place particular emphasis on structure-property relationships of polymers and manufacturing technologies as well as their practical and novel applications. The aim of each book in the series is to provide readers with an in-depth treatment of the state-of-the-art in that field of polymer technology. Collectively, the series will provide a definitive library of the latest advances in the major polymer families as well as significant new fields of development in polymer science. [Pg.672]

Gel polymer lithium-ion batteries replace the conventional liquid electrolytes with an advanced polymer electrolyte membrane. These cells can be packed in lightweight plastic packages as they do not have any free electrolytes and they can be fabricated in any desired shape and size. They are now increasingly becoming an alternative to liquid-electrolyte lithium-ion batteries, and several battery manufacturers. such as Sanyo. Sony, and Panasonic have started commercial production.Song et al. have recently reviewed the present state of gel-type polymer electrolyte technology for lithium-ion batteries. They focused on four plasticized systems, which have received particular attention from a practical viewpoint, i.e.. poly(ethylene oxide) (PEO). poly (acrylonitrile) (PAN). ° poly (methyl methacrylate) (PMMA). - and poly(vinylidene fluoride) (PVdF) based electrolytes. ... [Pg.202]

How can we minimize the damage to the environment Common sense says that prevention is better than cure. If one can use an environmentally friendly solvent in the processing step, the discharge of hazardous chemicals and the need for environmental post-treatment can be avoided. This is an approach that is currently being explored in polymer processing as well as in other manufacturing technologies (DeSimone et al. 1994). In the case of the... [Pg.576]

Advances in polymer and fibre science and in the manufacturing technologies of fibres, yarns and fabrics have been the driving force behind the development of smart textiles and innovative products that fulfil customer expectations. In contrast with the situation that existed 20years ago, these products now find applications primarily in sectors outside the textile field. Therefore, fibre, yam and clothing producers are in constant pursuit of developing new materials in order to meet the demands for both traditional and technical textiles to be used for applications outside the textile industry. [Pg.221]

Plastic Packaging Extrusion Technology Polymer Manufacturing Recycled Materials Logistics Services... [Pg.427]

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See also in sourсe #XX -- [ Pg.17 ]



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