Frequency dependency of (A) storage modulus G'' and (B) loss modulus G'''' of virgin PP, recycled PP without and with additive depending on the processing cycle (at 190 C). On the other hand, a major improvement in viscoelastic properties occurred when the additive was added to PP, which had already been recycled 10 times.
Read MoreThe linear viscoelastic and steady shear flow properties of high phase volume suspensions of a range of agar microgel particles have been measured and are found to depend upon the deformability (or modulus) of the particles. Agar concentrations in the range 0.5-5 wt % are utilized, giving a range of particle modulus spanning 2.4-185 kPa. On increasing the
Read MoreFor this purpose, Li et al. examined [] the temperature dependence of viscosity, storage, and loss modulus on the rheological behavior in general. Delgado et al. [ 3 ] used a statistical approach and a
Read MoreThe storage modulus, loss modulus, and tan delta comprise the parameters for rheology of dough as shown in Figure 2. Both storage modulus and loss modulus are directly proportional to frequency. Loss modulus is always inferior to storage modulus, indicating that dough was more elastic than viscous (Narsimhan, 1994 ).
Read MoreBoth storage modulus and complex viscosities decreased with the increasing temperature throughout the testing range. This trend can be explained by the interaction of the hydroxyl radical groups on the surfaces of the Al powders [ 13 ] with the carbonyl groups of the ETPE and nitro groups of the NC in the adhesive [ 14 ].
Read MoreAmong the 8, 10 and 12 wt% MC, the most favorable rheological properties in terms of viscosity and storage modulus were related to the 10 wt% MC. The gelation temperature of the polymer blends can be determined through temperature-dependent oscillation experiments, in which the intersection of the elastic and the viscous moduli
Read MoreLiu et al. [48] investigated the impact of PAN concentration and molecular weight on the solution rheological behavior such as viscosity, loss modulus, storage
Read MoreIn addition to the storage modulus (G ′) and the loss modulus (G ″), the complex viscosity is also an important parameter that provides information about the viscous or elastic effects. As presented in
Read MoreThe rheological behavior of the forming hydrogel is monitored as a function of time, following the shear storage modulus G′ and the loss modulus G'''' (Fig. 1). The
Read MoreFigure 9 shows the characteristic curves of storage modulus-frequency of the samples under different magnetic flux densities. At low frequency (<10 Hz), the shear frequency
Read MoreStorage modulus and loss modulus are the most frequently used to characterize dynamic properties and can be comfortable defined in the LVE regime but that is not sufficient to
Read MoreIn the amplitude test, the shear storage modulus G'' and the shear loss modulus G'''' were monitored as a function of the shear strain amplitude at constant oscillation frequency. For all samples under investigation the amplitude tests were performed at constant oscillation frequency ω of 10 rad/s.
Read MoreThe amplitude sweep test, as the name suggests, measures the elastic or storage modulus (G′) and viscous or loss modulus (G″) as a function of applied strain (γ).
Read MoreAgar concentrations in the range 0.5–5 wt% are utilized, giving a range of particle modulus spanning 2.4–185 kPa. On increasing the particle modulus, in suspensions with phase
Read MoreThis paper present the results from a comprehensive study undertaken to investigate and develop alkali-activated binders (AABs) with laterite soil as the aluminosilicate precursor. In this study, the effect of the silica modulus (SiO 2 /Na 2 O) of the activator on the setting time, rheological properties and strength development were
Read MoreIn small amplitude oscillatory shear measurements, the shear storage modulus, G′, loss modulus, G″ and loss factor, tan δ, are critical hydrogel properties monitored against
Read MoreHowever, the size gradation of CL-20 exerts no significant impact on the initial yield of the GAP slurries. Figure 5. (a) Storage modulus and (b) loss modulus of the GAP propellant slurries with multimodal particles at 10 rad·s –1 and (c) the yield/flow strains. 3.3. Frequency Dependence of the GAP Propellant Slurries.
Read MoreThe linear viscoelastic and steady shear flow properties of high phase volume suspensions of a range of agar microgel particles have been measured and are
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