The Rheology Handbook. Thomas Mezger
Чтение книги онлайн.

Читать онлайн книгу The Rheology Handbook - Thomas Mezger страница 33

Название: The Rheology Handbook

Автор: Thomas Mezger

Издательство: Readbox publishing GmbH

Жанр: Химия

Серия:

isbn: 9783866305366

isbn:

СКАЧАТЬ may show – also at low shear rates – effects like shear-banding [3.26]. See also Note 2 below.

      Note 2: Recovery time with thixotropic behavior and relaxation time

      Relaxation time and retardation time, respectively, is a useful tool to characterize time-dependent behavior during a deformation and re-deformation process of viscoelastic liquids such as polymers (with a typical molecule size in the range of nanometers; e. g., mostly between 10 nm to 100 nm, and in maximum 1000 nm). This kind of behavior depends above all on the average molar mass and molar mass distribution of the polymer (see Chapters 7.3.3.3 and 6.3.4.4). In this case, however, chemical-physical interactions typically play a minor role – if at all. In principle, the recovery time of a thixotropic sample (with most “players” in the µm range) should not be compared with the relaxation process of polymer molecules (i. e., here showing clearly smaller “players” in the nm range), since in the former usually interaction forces are playing the dominant role. Please be aware: Within the nano-world there are typically existing clearly other rules compared to the micro-world or macro-world. See also Note 1 above.

       3.4.2.2Test methods for investigating thixotropic behavior

      There are several possibilities to characterize thixotropic behavior, and correspondingly, different results may occur finally [3.66].

      3.4.2.2.1a) Step test consisting of three intervals

      Preset

      1 With controlled shear rate (CSR): profile γ ̇ (t) with three intervals as a step function (see Figure 3.40)

      2 With controlled shear stress (CSS): profile τ(t) with three intervals as a step function (similar to Figure 3.40)

      Result: Time-dependent viscosity function η(t), see Figure 3.41

mezger_fig_03_40

       Figure 3.40: Preset profile: step function consisting of three test intervals, each one at a constant shear rate, at (1) low-shear, (2) high-shear, and (3) again at low-shear conditions

mezger_fig_03_41

       Figure 3.41: Time-dependent viscosity of a thixotropic material, (1) at low-shear conditions showing the “reference value of the viscosity-at-rest”, (2) structural decomposition, and (3) structural regeneration

      For measurements like this, the following three test intervals are preset.

      1) Reference interval (low-shear phase)

      Shear conditions “at rest”, i. e. low-shear conditions, are preset in the period between t0 and t1. The aim is here to achieve a fairly constant η-value in the whole first interval, in terms of the reference value of the viscosity-at-rest. This value is used later as the reference value to be compared to the viscosity values obtained in the third test interval, showing structural regeneration if it occurs.

      2) High-shear interval

      High-shear conditions are preset in the period between t1 and t2 in order to break the internal structure of the sample. This interval is used to simulate the high-shear conditions occurring during an application process, for example, painting and coating using brush, roller or blade, or when spraying.

      3) Regeneration interval (low-shear phase)

      Shear conditions “at rest” are preset again in the period between t2 and t3, at the same shear conditions like in the first interval to facilitate regeneration of the sample’s structure. This interval is used to simulate the low-shear conditions occurring directly after the coating process when the material is only slightly stressed by its own weight due to gravity.

      For practical users, the crucial factor to evaluate structural regeneration is the behavior in the time frame which is related to practice. This period of time has to be defined by the user before the test according to the requirements, usually after a number of experiments performed (e. g. by the application department). Example A: For a wet coating, a regeneration time of t = 60 or 120 s is desired in order to obtain good leveling behavior. Example B: For a drop of an adhesive or for a printing ink a time of only t = 1 or 2 s is desired to achieve dot sharpness in a relatively short time. If the desired η-value has not been reached within this “time related to practice” (or“practice-relevant time”), then the sample is not considered to be thixotropic, related to this application.

      3.4.2.2.2Example 1: Presetting shear rates for all intervals

      1st interval (for t = 60 s, with 5 measuring points): at γ ̇ = 0.1 s-1 = const

      2nd interval (for t = 30 s, with 5 points): at γ ̇ = 1000 s-1 = const

      3rd interval (for t = 180 s, with 50 points or more): at γ ̇ = 0.1 s-1 = const again

      Exactly the same shear profile has to be preset for each individual test if thixotropy values of different tests are to be compared, and that counts for all parameters: shear rates, number of measuring points, and duration of the test intervals.

      3.4.2.2.3Example 2: Presetting shear stresses for all intervals

      1st interval: at τ = 10 Pa; 2nd interval: at τ = 1000 Pa; 3rd interval: again at τ = 10 Pa

      Interval times and number of measuring points should be selected like in Example 1.

      Example 3: Presetting shear rate and shear stress combined in series

      1st interval with controlled shear stress (at a low stress value, conditions at rest)

      2nd interval with controlled shear rate (at a high shear rate, to simulate the application process)

      3rd interval with controlled shear stress (at a low stress again, to simulate the low weight force of the applied wet coating layer)

      Using this type of test, sometimes differences between samples may be observed which might hardly be observed when using another test type. Sometimes, the first interval is omitted here (as in Figure 3.38). On the other hand, as a disadvantage must be stated that pre-tests are required to find out a useful shear stress value to be selected for the first and third interval.

      Note 1: Optimizing the test conditions

      In order to get a useful “reference value of the viscosity-at-rest”, the viscosity values should be as constant as possible in the first interval. If this condition is not met, the following actions can be taken:

      1 If the η(t)-curve comes from above and shows constant viscosity values only after a certain period of time, the preset shear rate was too high for the sample to be still in a state of rest. Therefore, at these shear conditions a certain degree of structural decomposition is already taking place. Action: A lower shear rate should be selected.

      2 If the η(t)-curve comes from below and shows constant viscosity values only after a certain period of time, then transient behavior is measured. Transient shear СКАЧАТЬ