An optimization-based design approach for a novel self-adjuster using shear thickening fluid

Abstract: Recently, the increasingly strict safety and emission regulations in the automotive industry drove the interest towards automatic length compensating devices, e.g., hydraulic lash adjusters (lower emission) and slack adjuster in brake systems (faster brake response). These devices have two crucial requirements: (a) be stiff during high load, while (b) be flexible in the released state to compensate for environmental effects such as wear and temperature difference. This study aims to use the advantageous proper… Show more

“…This method allows accurate prediction of the hysteretic performance of STF dampers without the need for complex constitutive models of STF. Building upon this foundation, Nagy-György et al [20] employed a differential equation model to optimize the damping performance of STF dampers. Their approach involved capitalizing on the fluid compressibility properties of STF at low shear rates and the incompressibility properties of solid-like materials at high shear rates.…”

Mechanical behavior of a torsional shear thickening fluid damper

“…This method allows accurate prediction of the hysteretic performance of STF dampers without the need for complex constitutive models of STF. Building upon this foundation, Nagy-György et al [20] employed a differential equation model to optimize the damping performance of STF dampers. Their approach involved capitalizing on the fluid compressibility properties of STF at low shear rates and the incompressibility properties of solid-like materials at high shear rates.…”

Mechanical behavior of a torsional shear thickening fluid damper

Smart Polishing with Shear Thickening Fluid

Shear thickening fluids and their applications