Abstract
This work documents the first account of advanced mechanical properties of six commercial lipsticks, some of which serve as market leads. We systematically studied their nonlinear viscoelastic properties under large amplitude oscillatory shear deformations. At large strains, all lipsticks showed intercycle strain softening, the extent of which initially depended on the prototype in the nonlinear regime. This behavior, markedly, was absent after the crossover of the dynamic moduli. Parameters obtained from the strain amplitude sweeps, i.e., the intrinsic elastic modulus and the stress maximum, demonstrated distinct prototype dependence. The Lissajous plots and the dimensionless nonlinear indices were determined using the MITlaos software. They showed intracycle elastic strain stiffening and viscous shear thinning. The angular oscillation frequency directly influenced the linear viscoelastic measures of all the benchmark lipsticks, and the nonlinear properties of only a few benchmark ones. The current study generates standard nonlinear rheology data that can be associated with the lipstick sensory attributes and typical tribological parameters. This may serve as an effective way to examine the transition from the initial spreading to the post-application sensation.
Highlights
The current generation of commercially procurable lipsticks requires suitable mechanical characteristics to generate superior features, both in terms of market coverage and customer acceptance
We find predominant elastic contributions to viscoelasticity (G > G ) in the linear viscoelastic (LVE) region, which is dependent on the benchmark prototype
Advanced mechanical properties of six different commercially procurable standard lipstick models were investigated under Large amplitude oscillatory shear (LAOS) stresses
Summary
The current generation of commercially procurable lipsticks requires suitable mechanical characteristics to generate superior features, both in terms of market coverage and customer acceptance. The lipstick viscosity has to be high enough to hold its structure in the mold It should gradually decrease as the mechanical stress is increased during the physiological application [3]. Lipsticks necessitate different degrees of friction to slither effortlessly over skin [4]. This assists in regulating applications like sweating. The wearing rate should be enough to leave a transfer film, but not so extreme that the film is objectionably impenetrable. These perceptions are expedited by an improved understanding of the real material properties under industrial production settings. There is a direct or indirect influence on the customer base, which can vary widely based on climate, location, culture, and perceptibility
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