New insights into tackling large amplitude oscillatory shear (LAOS): an analytic LAOS approach (aLAOS)

TL;DR

This paper introduces an analytic LAOS (aLAOS) method that simplifies rheological analysis of complex fluids by reconstructing signals through Fourier coefficients, unifying existing methods and enhancing interpretability.

Contribution

The novel aLAOS approach reconstructs rheological signals using Fourier coefficients, simplifying LAOS analysis and unifying existing methods into a single framework.

Findings

aLAOS accurately reconstructs rheological signals.

It unifies mainstream LAOS methods.

It visually distinguishes higher harmonic contributions.

Abstract

Large amplitude oscillatory shear (LAOS) has been widely applied for performing rheological analysis of complex fluids, and the Fourier transform (FT) rheology is considered one of the mainstays in LAOS since FT is an essential mathematic tool that is applied in numerous fields of signal analysis. However, the challenge of understanding FT, diverse mathematical frameworks, and complicated data processing render existing LAOS methods hard to be effectively used. As a result, their accessibility and implementation are limited in practice. Thus, the development of novel LAOS methods remains an unmet need. In this context, a newly analytic LAOS (aLAOS) approach was deduced here to tackle LAOS by the reverse use of the methodology of the FT rheology. More specifically, the rheological signals and measures can be precisely reconstructed based on the established equations involving Fourier coefficients instead of processing numerous discrete points of the Lissajous curves. Furthermore, considering the acquired results from the LAOS tests on the various typical yield stress fluids, it was demonstrated that the aLAOS could unify the mainstream LAOS methods into one Fourier coefficient-based framework and visually distinguish the contribution of arbitrary higher harmonics. Consequently, the proposed approach is arising as a promising candidate for the convenient treatment of LAOS, which could also highly promote the multi-field applications of LAOS.