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Peroxy polymers

The advantage of this technique is that the intermediate peroxy polymers may be kept for long periods of time before performing the final grafting step. The grafting reactions using this technique can be described as follows ... [Pg.509]

Macro-radicals formed during the initiation reaction react with oxygen molecules to produce peroxy polymer radicals (POO ) according to... [Pg.431]

Overall, it is the peroxy polymer radical that is the major oxidized surface species under lean and near-stoichiometric conditions, as shown in Figure 22.16. Under stoichiometric conditions, the peroxy, alkoxy, and hydroxyl functional groups contribute almost equally to the oxidation of the surface. Under rich conditions when the molecular oxygen concentration decreases, the alcohol group (PPOH) is the leading surface oxidized species. [Pg.466]

Antioxidants markedly retard the rate of autoxidation throughout the useful life of the polymer. Chain-terminating antioxidants have a reactive —NH or —OH functional group and include compounds such as secondary aryl amines or hindered phenols. They function by transfer of hydrogen to free radicals, principally to peroxy radicals. Butylated hydroxytoluene is a widely used example. [Pg.1008]

The reaction rate of fumarate polyester polymers with styrene is 20 times that of similar maleate polymers. Commercial phthaHc and isophthaHc resins usually have fumarate levels in excess of 95% and demonstrate full hardness and property development when catalyzed and cured. The addition polymerization reaction between the fumarate polyester polymer and styrene monomer is initiated by free-radical catalysts, commercially usually benzoyl peroxide (BPO) and methyl ethyl ketone peroxide (MEKP), which can be dissociated by heat or redox metal activators into peroxy and hydroperoxy free radicals. [Pg.317]

Termination. The conversion of peroxy and alkyl radicals to nonradical species terminates the propagation reactions, thus decreasing the kinetic chain length. Termination reactions (eqs. 7 and 8) are significant when the oxygen concentration is very low, as in polymers with thick cross-sections where the oxidation rate is controlled by the diffusion of oxygen, or in a closed extmder. The combination of alkyl radicals (eq. 7) leads to cross-linking, which causes an undesirable increase in melt viscosity. [Pg.223]

The relative importance of the various pathways depends on the alkyl groups (R). The rate constants for scission of groups (R ) from /-aikoxy radicals (RR C-O) increase in the order isopropylalkyl radical is less important when R is methyl than when R is a higher alkyl group, if the pathway to alkylperoxy radicals is dominant, the resultant polymer is likely to have a proportion of peroxy end groups.200 211... [Pg.91]

The multifunctional initiators may be di- and tri-, azo- or peroxy-compounds of defined structure (c.g. 20256) or they may be polymeric azo- or peroxy-compounds where the radical generating functions may be present as side chains 57 or as part of the polymer backbone."58"261 Thus, amphiphilic block copolymers were synthesized using the polymeric initiator 21 formed from the reaction between an a,to-diol and AIBN (Scheme 7.22).26 Some further examples of multifunctional initiators were mentioned in Section 3.3.3.2. It is also possible to produce less well-defined multifunctional initiators containing peroxide functionality from a polymer substrate by autoxidalion or by ozonolysis.-0... [Pg.386]

These additives are thus able to trap both alkyl and peroxy radicals. In this way they interfere with the propagating steps of the degradation process. Since overall the nitroxyl radicals are not consumed in this mechanism these additives are effective at low concentrations in the polymer. [Pg.124]

Allylic alcohols can be converted to epoxy-alcohols with tert-butylhydroperoxide on molecular sieves, or with peroxy acids. Epoxidation of allylic alcohols can also be done with high enantioselectivity. In the Sharpless asymmetric epoxidation,allylic alcohols are converted to optically active epoxides in better than 90% ee, by treatment with r-BuOOH, titanium tetraisopropoxide and optically active diethyl tartrate. The Ti(OCHMe2)4 and diethyl tartrate can be present in catalytic amounts (15-lOmol %) if molecular sieves are present. Polymer-supported catalysts have also been reported. Since both (-t-) and ( —) diethyl tartrate are readily available, and the reaction is stereospecific, either enantiomer of the product can be prepared. The method has been successful for a wide range of primary allylic alcohols, where the double bond is mono-, di-, tri-, and tetrasubstituted. This procedure, in which an optically active catalyst is used to induce asymmetry, has proved to be one of the most important methods of asymmetric synthesis, and has been used to prepare a large number of optically active natural products and other compounds. The mechanism of the Sharpless epoxidation is believed to involve attack on the substrate by a compound formed from the titanium alkoxide and the diethyl tartrate to produce a complex that also contains the substrate and the r-BuOOH. ... [Pg.1053]

The above-mentioned mode of reactions changes when the irradiation is carried out in the presence of gases such as oxygen. In this case, energy transfer, the reaction of oxygen with polymer radicals [32] (leading to the formation of peroxy radicals) and other reactions may affect the type and concentration of products formed [33]. The same can be said for certain additives mixed into the elastomer for one or the other purpose. [Pg.855]

The PP sample exposed to ozone shows for a rapid formation of polymer peroxy radicals. A singlet unsymmetric line ESR spectrum (Fig.l) is very characteristic for oxygenated polymer radicals (29). [Pg.189]

A PP sample after ozonization in the presence of UV-irradiation becomes brittle after 8 hrs of exposure, whereas the same effect in ozone is noticeable after 50-60 hours.Degradation of polymer chain occurs as a result of decomposition of peroxy radicals. The oxidation rapidly reaches saturation, suggesting the surface nature of ozone and atomic oxygen against of PP as a consequence of limited diffusion of both oxygen species into the polymer. Ozone reacts with PP mainly on the surface since the reaction rate and the concentration of intermediate peroxy radicals are proportional to the surface area and not the weight of the polymer. It has been found that polyethylene is attacked only to a depth of 5-7 microns (45). [Pg.197]

The PP samples exposed to atomic oxygen show for the formation of polymer peroxy radicals (P00 ), which give almost identical ESR spectrum as in the case of ozone reaction (Fig.l). The ESCA spectra (Fig.5) indicate that atomic oxygen oxidation is more effective than ozonization. These results support our assumption that ozonization... [Pg.197]

See other pages where Peroxy polymers is mentioned: [Pg.509]    [Pg.707]    [Pg.714]    [Pg.1482]    [Pg.707]    [Pg.714]    [Pg.431]    [Pg.170]    [Pg.509]    [Pg.707]    [Pg.714]    [Pg.1482]    [Pg.707]    [Pg.714]    [Pg.431]    [Pg.170]    [Pg.318]    [Pg.203]    [Pg.364]    [Pg.224]    [Pg.224]    [Pg.439]    [Pg.510]    [Pg.639]    [Pg.81]    [Pg.200]    [Pg.728]    [Pg.732]    [Pg.745]    [Pg.750]    [Pg.750]    [Pg.755]    [Pg.609]    [Pg.680]    [Pg.122]    [Pg.124]    [Pg.467]    [Pg.478]    [Pg.869]    [Pg.893]    [Pg.197]    [Pg.481]   


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Formation of the peroxy polymer radical

Peroxy

Structure and Molecular Motion of Peroxy Radicals in Polymer Matrices

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