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Geometric-mean termination models

Figure 3.4 Termination rate eoefficient versus ehain length for the geometric mean termination model including Poisson broadening variation of chain-length exponent b. Symbols represent the results of the computer simulations, while the lines are the corresponding input values. Figure 3.4 Termination rate eoefficient versus ehain length for the geometric mean termination model including Poisson broadening variation of chain-length exponent b. Symbols represent the results of the computer simulations, while the lines are the corresponding input values.
Termination scheme 11 applies to the geometric mean and phi factor models and scheme 12 Is required for the penultimate effect model. All the above reaction models were used In attempts to simulate kinetic data. [Pg.16]

An examination of elimination data from 44 pigs exposed to excess selenium as sodium selenite in feed was found to fit a one-compartment model of selenium elimination (Davidson-York et al. 1999). Serum selenium levels were monitored over a period of 46 days beginning 1-14 days after termination of exposure to the feed containing excess selenium. Data were not adequate to depict the initial distribution phase, but a geometric mean elimination half-life of 12 days was calculated. It is likely that the period of elimination included in this study corresponds to the second phase described by Thomson and Stewart (1974). [Pg.171]

Of course Equation 8 specifies only homotermination rate coefficients one requires also cross-termination rate coefficients. A simple model for these is that of the geometric mean ... [Pg.25]

Model D differs from Model C in that a geometric mean approximation (eq. 30) is applied to reduce the number of penultimate termination rate coefficients from 10 to 4 ... [Pg.1897]

Olaj and Zifferer [229] have performed Monte Carlo simulations in which they placed 300 polymer chains in a lattice, considering excluded volume effects. From the obtained configurations they evaluated the shielding factor which describes how severely the presence of a polymer coil retards the termination of its own radical compared to small (unshielded) radicals. For chains of unequal size Olaj and Zifferer showed that the geometric mean model provided a reasonable mathematical description of their results, although the harmonic mean model. [Pg.47]

Figures 3.4 and 3.5 show the results of the simulations using a geometric mean and Smoluchowski model respectively (termination model 2 and 3, respectively). In both simulations the chain-length dependence was varied in strength by adjusting the parameter b in geometric mean model and the parameters a and b in the Smoluchowski model. Note that different scales have been applied in these graphs. As is directly obvious from inspecting... Figures 3.4 and 3.5 show the results of the simulations using a geometric mean and Smoluchowski model respectively (termination model 2 and 3, respectively). In both simulations the chain-length dependence was varied in strength by adjusting the parameter b in geometric mean model and the parameters a and b in the Smoluchowski model. Note that different scales have been applied in these graphs. As is directly obvious from inspecting...
The basic kinetic equations for chain addition copolymerization are given in Table I for three termination models geometric mean (GM), phi factor (PF) and penultimate effect (PE). It Is important to note the symmetry in form created by confining the effect of choice of termination model to a single factorable function H. [Pg.174]


See other pages where Geometric-mean termination models is mentioned: [Pg.194]    [Pg.361]    [Pg.23]    [Pg.622]    [Pg.450]    [Pg.216]    [Pg.102]    [Pg.1897]    [Pg.407]    [Pg.30]    [Pg.32]    [Pg.87]    [Pg.98]    [Pg.241]    [Pg.179]    [Pg.207]    [Pg.207]    [Pg.35]   
See also in sourсe #XX -- [ Pg.32 ]




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Geometric model

Geometrical mean

Mean model

Model, termination

Terminal model

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