Sitions showing an overall stable behaviour. Compared with all the influence of temperature, detergents seem to have a minor influence on slurry viscosity. Clearly, the surfactants do notPolymers 2021, 13,What is also evident initially glance is definitely the truth that the addition of carbon black massively influences slurry viscosity. The important shear prices for the shift among shear-thinning and shear-thickening behaviour are thereby shifted from eight s-1 to 30 s-1, according to 8 of 12 temperature. This shift in viscosity also happens for far more complicated slurry compositions displaying an all round steady behaviour. Compared using the influence of temperature, detergents Anle138b Neuronal Signaling appear to have a minor influence on slurry viscosity. Obviously, the surfactants do drastically influence slurry viscosity and and show similar benefits, each size of magnitude not significantly affect slurry viscosity show equivalent benefits, both in thein the size of magand pseudoplastic feature. nitude and pseudoplastic function.Figure 8. Shear rate vs. viscosity for slurries at distinctive temperatures: 20 (green), 30 (orange), 40 (red). On the Figure eight. Shear rate vs. viscosity for slurries at unique temperatures: 20 C (green), 30 C (orange), 40 C (red). On the left will be the slurries without the need of LTO, around the correct the slurries with LTO. left will be the slurries with out LTO, around the correct the slurries with LTO.For frequency sweep measurements, depicted in in thethe storage modulusdominates frequency sweep measurements, depicted 9, 9, storage modulus G G dominatesthe loss modulus G , which is a typicalabehaviour for gel-type systems [24], indicating over over the loss modulus G, which can be typical behaviour for gel-type systems [24], indicating a three-dimensional network slurry mixture. Both G and G reveal the highest a three-dimensional network within the within the slurry mixture. Each G and G reveal the highest values for immediately after preparation being the total LTO-SA slurry LTO-SA dispervalues for SA3 30 min SA3 30 min just after preparation being the total with no slurry sant. Slurries containing -AG 99 supplier FC4430 as dispersant as dispersant show the lowest values, both without dispersant. Slurries containing FC4430 show the lowest values, each straight just after preparation preparation and 30 min later. G showed rather low slopes up frequency of directly afterand 30 min later. G showed rather low slopes as much as an angularto an angular about one hundred of , followed -1, a strongly increasing slope for the samples the samples mixing. frequency s-1about 100 sby followed by a strongly rising slope for straight afterdirectly This mixing. This indicates a formation of plateau, reflecting a strong physical network in just after indicates a formation of G secondary G secondary plateau, reflecting a sturdy physthe network inside the method, which include the LTO particles with SA. This so-called `rubber-like ical method, including the interaction of theinteraction of the LTO particles with SA. This sobehaviour’ indicates to which acting force the physical force the physical network/gel named `rubber-like behaviour’ indicates to which acting network/gel structure is stable. Defining is stable. Defining a yield point and G curves of G and G curves results in the structure a yield point as the crossing of G as the crossing leads to the assumption that only SAD1 and SAD2 own a yield point at personal a yield point at of about 40000 s-1 assumption that only SAD1 and SAD2an angular frequencyan angular frequency .of about In s-1. 40000contrast for the ma.