流变学测量揭示了有关宏观材料特性随温度的函数的信息。近年来,其他技术与流变学测量的结合变得越来越流行。我们将所有方法分为三个主要类别。
The first contains all techniques providing additional structural information. Since the mechanical material properties strongly depend on the microstructure, information on the microstructure is often valuable for a better understanding of the rheological behavior. The second category includes all systems in which the rheological behavior is studied as a function of an additional parameter. The third category contains techniques transforming the rotational or the axial movements of the
rheometer into different types of flow conditions.
The geometries or accessories used impose mechanical loads in different geometrical forms onto various types of samples.
The aim of this report is to give an overview over such widely used combined rheological techniques and to discuss their respective advantages and limitations. However, here we limit ourselves to techniques which can be mounted optionally as special accessories into theMCR rheometerfrom Anton Paar.
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This information has been sourced, reviewed and adapted from materials provided by Anton Paar GmbH.
For more information on this source, please visitAnton Paar GmbH.