Henkel

Last updated January 31, 2026

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Concentrated rheology control network: HenkelRecent Research Landscape

High active-ingredient density causes phase instability and poor pourability, which is mitigated through rheological control of the liquid matrix. Precise stabilization of the flowable phase prevents product separation and ensures consistent dosing performance.

What technical problems is Henkel addressing in Concentrated rheology control network?

Unstable liquid phase separation

(9)evidences

Concentrated cleaning agents suffer from ingredient separation and undesired viscosity shifts. Stabilizing these dense formulations prevents product degradation and ensures consistent dispensing.

Soil redeposition during laundering

(8)evidences

Mixed ionic and nonionic surfactant systems in concentrated detergents often suffer from physical instability and phase separation during storage. Maintaining a stable, homogeneous distribution prevents product degradation and ensures consistent cleaning performance.

Surfactant polymer phase incompatibility

(8)evidences

High concentrations of surfactants and polymers often lead to precipitation, cloudiness, or loss of flowability. Maintaining structural homogeneity ensures product efficacy and aesthetic clarity.