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Storage modulus vs. temperatur

FIGURE 28.16 Storage modulus vs temperature of organoclay-loaded rubber nanocomposite. (From Teh, P.L. et al., J. Appl. Polym. Sci., 100, 1083, 2006.)... [Pg.790]

Fig. 22 Storage modulus vs. temperature for statistically random ethylene-octene and propylene-ethylene copolymers compared to an ethylene-octene OBC... Fig. 22 Storage modulus vs. temperature for statistically random ethylene-octene and propylene-ethylene copolymers compared to an ethylene-octene OBC...
Figure 7. Storage modulus vs. temperature curves for (A) linear amorphous polymer (B) crosslinked polymer (C) semicrystalline polymer (D) PTMA/MDI/BD-segmented copolymer (32% MDl by wt) (E) PTMA/MDI/BD-segmented copolymer... Figure 7. Storage modulus vs. temperature curves for (A) linear amorphous polymer (B) crosslinked polymer (C) semicrystalline polymer (D) PTMA/MDI/BD-segmented copolymer (32% MDl by wt) (E) PTMA/MDI/BD-segmented copolymer...
Figure 22.14 Storage modulus vs. temperature curves of PU samples. Figure 22.14 Storage modulus vs. temperature curves of PU samples.
Fig. 241. Storage modulus vs temperature upon cooling gellan solutions of three concentrations (A) 0.99 wt% (O) 1.28 wt% ( ) 1.48 wt% small strain amplitude and frequency 2 Hz. Reprodu from Food Hydrocoll [Ref. 588] by the courtesy of the authors and of Oxford Univeraty Press... Fig. 241. Storage modulus vs temperature upon cooling gellan solutions of three concentrations (A) 0.99 wt% (O) 1.28 wt% ( ) 1.48 wt% small strain amplitude and frequency 2 Hz. Reprodu from Food Hydrocoll [Ref. 588] by the courtesy of the authors and of Oxford Univeraty Press...
Figure 4.136 Storage modulus vs. temperature (DMA curves) for Celanese Thermx PCT resins [12]. Figure 4.136 Storage modulus vs. temperature (DMA curves) for Celanese Thermx PCT resins [12].
Figure 6.227 Storage modulus vs. temperature for two Evonik Industries Trogamid amorphous nylons [11]. Figure 6.227 Storage modulus vs. temperature for two Evonik Industries Trogamid amorphous nylons [11].
Fig. 1 Four types of SMPs (dual-shape effect) depicted as a function of their dynamic thermomechanical behavior. Plotted is the tensile storage modulus vs temperature as measured using a smtdl oscillatory deformation at 1 Hz for (a) Cat. A-I, chemically crosslinked amorphous polymer network (7, = Tg) (b) Cat. A-II, chemically crosslinked semicrystalline polymer networks (Ttrans = 7m) (c) Cat. B-I, physically crosslinked thermoplastic with r,ra,K = 7g and (d) Cat. B-II, physically crosslinked thermoplastic (Tlrans = Tm). Taken from ref [5], Copyright 2007. Reproduced by permission of the Roytd Society of Chemistry, http //dx.doi.org/10.1039/b615954k... Fig. 1 Four types of SMPs (dual-shape effect) depicted as a function of their dynamic thermomechanical behavior. Plotted is the tensile storage modulus vs temperature as measured using a smtdl oscillatory deformation at 1 Hz for (a) Cat. A-I, chemically crosslinked amorphous polymer network (7, = Tg) (b) Cat. A-II, chemically crosslinked semicrystalline polymer networks (Ttrans = 7m) (c) Cat. B-I, physically crosslinked thermoplastic with r,ra,K = 7g and (d) Cat. B-II, physically crosslinked thermoplastic (Tlrans = Tm). Taken from ref [5], Copyright 2007. Reproduced by permission of the Roytd Society of Chemistry, http //dx.doi.org/10.1039/b615954k...
In addition, Tg criteria determined by DSC and DMTA measurements show miscibility on a scale down to 50-100 A (7). For example. Figure 6 shows storage modulus vs. temperature curves for PVP and for the PPTA anion/PVP (2/98) molecular composite. For both, there is a single Tg, which is ca. 15 C higher for the composite than for PVP. DSC data also show only a single Tg up to 400 C, which increases with increasing the ionic PPTA content (see Figure 7). [Pg.58]

Figure 13.35 Storage modulus vs. temperature tor polyamide-6 nanocomposites. Note that the heat distortion temperature increases very significantly with addition of exfoliated montmorillonite. Figure 13.35 Storage modulus vs. temperature tor polyamide-6 nanocomposites. Note that the heat distortion temperature increases very significantly with addition of exfoliated montmorillonite.
Fig. 33 (a and b) Storage modulus vs. temperature curves of the mbher composites and (c and d) tan 5 vs temperature curves of the rubber composites (BC = butyl rubber -t40 phr carbon black, BEC = butyl rubber -1-3 phr EG -1-30 phr carbon black, Bi-MC = butyl rubber -1-3 phr isocyanate modified EG -i-30 phr carbon black, SBC = 50 50 butyl rubber-SBR blend and 40 phr black, SBEC = 50 50 butyl mbber-SBR blend-I-3 phr EG-I-30 phr black, SBi-MC = 50 50 butyl rubber-SBR blend-l-3 phr isocyanate modified EG-I-30 phr black, SC = SBR-l-40 phr black, SEC = SBR-l-3 phr EG-I-30 phr black and Si-MC = SBR-I-3 phr isocyanate modified EG-I-30 phr black) [115]... [Pg.129]

Fig. 6 Storage modulus vs. temperature plots of the epoxy/m-HNTs nanocomposites (reproduced with permission of Springer, M. Liu et al., Journal of Polymer Research [25])... Fig. 6 Storage modulus vs. temperature plots of the epoxy/m-HNTs nanocomposites (reproduced with permission of Springer, M. Liu et al., Journal of Polymer Research [25])...
Fig. 18 (a) Storage modulus vs. temperature, (b) loss modulus vs. temperature (c) tan 5 vs. temperature. Traces of NR vulcanizates filled with 75 % Psi weight fraction in FASi/PSi hybrid filler (reproduced with permission of Elsevier,... [Pg.153]

Storage modulus vs temperature of the MOCA-based T-SMPUUs. [Pg.76]

Figure 4.25 illustrates storage modulus vs temperature of the segmented polyurethanes from which the storage modulus at T + 15°C (E, j) are extracted... [Pg.99]

Figure 10.14. Storage modulus vs. temperature for neat polyethylene, 5 wt% SWNT/PE and 5 wt% f-SWNT/PE nanocomposites [49]... Figure 10.14. Storage modulus vs. temperature for neat polyethylene, 5 wt% SWNT/PE and 5 wt% f-SWNT/PE nanocomposites [49]...
Figure 31 Plot of storage modulus vs. temperature for statistically random ethylene-octene and propylene-ethylene copolymers compared to an ethylene-octene OBC. Reproduced with permission from Wenzel, T. T. Arriola, D. J. Carnahan, E. M. et al. In Metal Catalysts in Olefin Polymerization. Topics in Organometallic Chemistry, Guan, Z., Ed. Springer-Vedag Berlin, Germany, 2009 Vol. 26. ... Figure 31 Plot of storage modulus vs. temperature for statistically random ethylene-octene and propylene-ethylene copolymers compared to an ethylene-octene OBC. Reproduced with permission from Wenzel, T. T. Arriola, D. J. Carnahan, E. M. et al. In Metal Catalysts in Olefin Polymerization. Topics in Organometallic Chemistry, Guan, Z., Ed. Springer-Vedag Berlin, Germany, 2009 Vol. 26. ...
Figure 3. Storage modulus vs. temperature of SWNT/S-I copolymer composites (styrene/isoprene - 75/25) measured in tension. Figure 3. Storage modulus vs. temperature of SWNT/S-I copolymer composites (styrene/isoprene - 75/25) measured in tension.
Figure 4. (a) Storage modulus (b) relative storage modulus vs. temperature curves for (- - as-received and CNT- 30 minutes coated) carbon fiber composites. [Pg.1514]

See other pages where Storage modulus vs. temperatur is mentioned: [Pg.782]    [Pg.791]    [Pg.519]    [Pg.80]    [Pg.387]    [Pg.387]    [Pg.328]    [Pg.187]    [Pg.52]    [Pg.125]    [Pg.937]   
See also in sourсe #XX -- [ Pg.422 , Pg.425 , Pg.426 , Pg.431 , Pg.434 , Pg.435 ]



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Storage modulus vs. temperature

Storage modulus vs. temperature

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