Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Low-molecular weight, generally

Transport dispersive model Adsorption chromatography for products with low molecular weights Generally high accuracy Chiral separation... [Pg.242]

The presence of additives, fillers, unreacted residual monomers and/or impurities, whether deliberately included in the formulation of a resin or left over as undesirable by-products of synthesis. For example, plasticizers of low molecular weight generally decrease Tg [18,30,67,68], as will be discussed further in Section 6.D. On the other hand, under some conditions, Tg may increase when rigid nanoscale additives are incorporated [65]. [Pg.217]

Case Greener Route to Lactones Used in Synthesis of Polyols Low-molecular-weight (generally up to about 40,000) polyols used as prepolymers in the polyurethane industry can be made by ring-opening polymerization of... [Pg.49]

Plasticizer (contamination) A low molecular weight, generally organic material added to polymer resins to make them more fluid and moldable. Plasticizers can be a major source of contamination coming from the bulk of a molded polymer material. [Pg.674]

The developer is generally a solvent in which the components of the mixture are not too soluble and is usually a solvent of low molecular weight. The adsorbent is selected so that the solvent is adsorbed somewhat but not too strongly if the solvent is adsorbed to some extent, it helps to ensure that the components of the mixture to be adsorbed will not be too firmly bound. Usually an adsorbate adheres to any one adsorbent more firmly in a less polar solvent, consequently when, as frequently occurs, a single dense adsorption zone is obtained with light petroleum and develops only slowly when washed with this solvent, the development may be accelerated by passing to a more polar solvent. Numerous adsorbat are broken up by methyl alcohol, ethyl alcohol or acetone. It is not generally necessary to employ the pure alcohol the addition from 0 5 to 2 per cent, to the solvent actually used suffices in most cases. [Pg.161]

The terminal groups of a polymer chain are different in some way from the repeat units that characterize the rest of the molecule. If some technique of analytical chemistry can be applied to determine the number of these end groups in a polymer sample, then the average molecular weight of the polymer is readily evaluated. In essence, the concept is no different than the equivalent procedure applied to low molecular weight compounds. The latter is often included as an experiment in general chemistry laboratory classes. The following steps outline the experimental and computational essence of this procedure ... [Pg.30]

One limitation of this method that should immediately come to mind is the restriction to relatively low molecular weight polymers. This is a corollary of the fact that chain ends are inconsequential for very long chains. Hence, the sensitivity of the method decreases as the molecular weight of the polymer increases. As a general rule, molecular weights in the neighborhood of 25,000 represent the upper limit for applicability of this method. [Pg.30]

In the concluding chapters we again consider assemblies of molecules—this time, polymers surrounded by solvent molecules which are comparable in size to the repeat units of the polymer. Generally speaking, our efforts are directed toward solutions which are relatively dilute with respect to the polymeric solute. The reason for this is the same reason that dilute solutions are widely considered in discussions of ionic or low molecular weight solutes, namely, solute-solute interactions are either negligible or at least minimal under these conditions. [Pg.495]

We shall be interested in determining the effect of electrolytes of low molecular weight on the osmotic properties of these polymer solutions. To further simplify the discussion, we shall not attempt to formulate the relationships of this section in general terms for electrolytes of different charge types-2 l, 2 2, 3 1, 3 2, and so on-but shall consider the added electrolyte to be of the 1 1 type. We also assume that these electrolytes have no effect on the state of charge of the polymer itself that is, for a polymer such as, say, poly (vinyl pyridine) in aqueous HCl or NaOH, the state of charge would depend on the pH through the water equilibrium and the reaction... [Pg.569]

The rationale for the development of such fibers is demonstrated by their appHcation in the medical field, notably hemoperfusion, where cartridges loaded with activated charcoal-filled hoUow fiber contact blood. Low molecular weight body wastes diffuse through the fiber walls and are absorbed in the fiber core. In such processes, the blood does not contact the active sorbent direcdy, but faces the nontoxic, blood compatible membrane (see Controlled RELEASE TECHNOLOGY, pharmaceutical). Other uses include waste industrial appHcations as general as chromates and phosphates and as specific as radioactive/nuclear materials. [Pg.155]

Laminates. Laminate manufacture involves the impregnation of a web with a Hquid phenoHc resin in a dip-coating operation. Solvent type, resin concentration, and viscosity determine the degree of fiber penetration. The treated web is dried in an oven and the resin cures, sometimes to the B-stage (semicured). Final resin content is between 30 and 70%. The dry sheet is cut and stacked, ready for lamination. In the curing step, multilayers of laminate are stacked or laid up in a press and cured at 150—175°C for several hours. The resins are generally low molecular weight resoles, which have been neutralized with the salt removed. Common carrier solvents for the varnish include acetone, alcohol, and toluene. Alkylated phenols such as cresols improve flexibiUty and moisture resistance in the fused products. [Pg.306]

Health and Safety Factors, Toxicology. Because low molecular weight phosphines generally are spontaneously flammable, they must be stored and handled in an inert atmosphere. The upper explosion limit is 1.6% and the upper limit is near 100% (93). The higher and less volatile homologues are more slowly oxidized by air and present less of a problem. [Pg.381]

Aluminum salts of carboxylic acids, aluminum carboxylates, may occur as aluminum tricarboxylates (normal aluminum carboxylates), Al(OOCR)2 monohydroxy (monobasic) aluminum dicarboxylates, (RCOO)2Al(OH) and dihydroxy (dibasic) aluminum monocarboxylates, RCOOAl(OH)2. Aluminum carboxylates are used in three general areas textiles, gelling, and pharmaceuticals. Derivatives of low molecular weight carboxyUc acids have been mainly associated with textile appHcations those of fatty carboxyUc acids are associated with gelling salts and more complex carboxylates find appHcations in pharmaceuticals. [Pg.142]

See other pages where Low-molecular weight, generally is mentioned: [Pg.482]    [Pg.482]    [Pg.273]    [Pg.132]    [Pg.109]    [Pg.122]    [Pg.557]    [Pg.482]    [Pg.482]    [Pg.273]    [Pg.132]    [Pg.109]    [Pg.122]    [Pg.557]    [Pg.93]    [Pg.2]    [Pg.5]    [Pg.78]    [Pg.98]    [Pg.251]    [Pg.333]    [Pg.127]    [Pg.328]    [Pg.268]    [Pg.265]    [Pg.333]    [Pg.451]    [Pg.487]    [Pg.63]    [Pg.113]    [Pg.210]    [Pg.278]    [Pg.313]    [Pg.326]    [Pg.360]    [Pg.361]    [Pg.369]    [Pg.411]    [Pg.475]    [Pg.481]    [Pg.401]    [Pg.248]    [Pg.309]   


SEARCH



Low molecular weight

Low-molecular

Molecular, generally

© 2024 chempedia.info