Poly-n-octyl methacrylate

Berge, j. W., P. R. Saunders, and J. D. Ferry Mechanical properties of poly-n-octyl methacrylate at low frequencies and in creep entanglements in methacrylate polymers. J. Colloid Sci. 14, 135 (1959). 

Poly(n-octyl methacrylate) Poly[N-(2-phenylethyl)meth acrylamide] Poly(cyclohcxyl a-ethoxyacrylate)... 

Fig. 7.14 The storage compliance of poly(n-octyl methacrylate) in the glass-transition region plotted against frequency on a logarithmic scale. Left-hand side values obtained at 24 temperatures, ranging from -14.3 °C (bottom curve) to 129.5 °C (top curve) right-hand side the master curve obtained by using appropriate shifts log aj. Note that the horizontal scales differ by a factor of two for the two parts of the figure. (Adapted by permission of Academic Press.)...

Figure 6.12 Storage compliance of poly-n-octyl methacrylate in the glass transition region plotted against frequency at 24 temperatures as indicated. (Reproduced from Ferry, Viscoelastic Properties of Polymers (3rd edn), Wiley, New Vork, 1980, Ch. 11)...

Figure 10. Plot of the elastic energy with time using the data for poly(n-octyl methacrylate) and various ellipse ratios. Included here is the electrostatic energy whose sign has been reversed.

FIG.l 1-5. Composite curve for the loss compliance of poly n-octyl methacrylate) obtained from the same series of measurements as the data of Figs. 11-1 and 11 -3 and reduced to 7b = 100 C with the same values of ar-... 

FIG. 12-9. Logarithmic plots of G and G" against frequency near the onset of the transition zone, enlarged from curves IV of Figs. 2-3 and 2-4, for poly(n-octyl methacrylate) at 100 C. Dashed curves drawn from Rouse-Mooney theory (Section B-l of Chapter 10). Reproduced, by permission, from the... 

FIG. 12-13. Storage modulus plotted logarithmically against frequency after reduction to corresponding states as in Figs. 12-10 and 12-11.(1) Poly(n-octyl methacrylate) (2) polyis obutylene (3) ethylene-propylene copolymer with 56% ethylene. Dashed lines represent —log — log Tp/Mo (cf. Table 13-1). 

The data for poly(n-octyl methacrylate) are those presented in Figs. 2-3 and 2-4 as curves IV. The reduction temperature is 100°C. The data have been reduced for the f-shift described in Chapter 11, Section F2, as well as with the usual ar factor. 

Figure 7.20 Relaxation time spectra H(ln t) for poly-n-dodecyl methacrylate (PDM), poly-n-octyl methacrylate (POM), poly-n-hexyl methacrylate (PHM), poly-n-butyl methacrylate (PBM), polyethyl methacrylate (PEM). Dashed lines are a slope of—j predicted by the Rouse theory. (Adapted from Ferry, j.D. (1980) Viscoelastic Properties of Polymers, 3rd edn, John Wiley Sons, New York, Ch. 11. Copyright (I960) John Wiley Sons, Inc.)...

Storage compliance of poly (n-octyl methacrylate) in the transition zone between glasslike and rubberlike consistency plotted logarithmically against frequency at 24 temperatures as indicated. The shifting of one data point from 80 to 100°C, the reference temperature, using eq. 11.6.2 is illustrated. Adopted from Ferry (1980). 

Poly(n-octyl methacrylate) 253 Poly(p-f-butyl styrene) 402... 

Mixtures of fluoropolymers with poly(n-octyl methacrylate). 

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