Experimental study of surface roughness on improving the tribological performance of sealing pairs in magnetorheological damper

Abstract: Comprehension of the tribological behavior of magnetorheological fluid (MRF) is crucial in many fields, particularly those related to seal wear. The sealing conditions are more complex than traditional media due to composition and rheological characteristics of MRF. The sealing pairs are prone to wear failure when in contact with magnetic particles. To this end, the paper focuses on the influence of surface roughness on MRF tribological properties with and without magnetic field. The whole experiment is carrie… Show more

“…In addition, Carlson (2002) demonstrated that fluid viscosity increases in the absence of a magnetic field as the number of cycles increases in using MRF in their applications. Also, Numerous studies have made progress on tribological features such as the wear characteristics, tribological performance, and coefficient of friction of MR fluids (Lee et al, 2011; Li et al, 2022; Lv et al, 2022; Sohn et al, 2009; Wong et al, 2001).…”

The effect of microparticles/nanoparticles surface modification on the magnetorheological fluid properties: A review

“…In addition, Carlson (2002) demonstrated that fluid viscosity increases in the absence of a magnetic field as the number of cycles increases in using MRF in their applications. Also, Numerous studies have made progress on tribological features such as the wear characteristics, tribological performance, and coefficient of friction of MR fluids (Lee et al, 2011; Li et al, 2022; Lv et al, 2022; Sohn et al, 2009; Wong et al, 2001).…”

The effect of microparticles/nanoparticles surface modification on the magnetorheological fluid properties: A review

“…1 Consequently, numerous studies have been conducted to investigate the influence of surface roughness on lubrication mechanisms and friction characteristics of rod seals. 2–5…”

“…1 Consequently, numerous studies have been conducted to investigate the inuence of surface roughness on lubrication mechanisms and friction characteristics of rod seals. [2][3][4][5] Feng et al reported that the surface roughness of the counter material, a stainless steel plate, signicantly affects the friction and wear behavior of elastomers when the rubber cylinder slides on the rough surface under lubricated conditions. 6 Scaraggi et al proposed a multiscale mean eld model using the average eld theory to analyze the effect of anisotropic surface roughness on rod seal friction.…”

Influence of surface structure on friction and wear characteristics of silicone rubber for hydraulic rod seals

Study on enhanced performance of CuFe alloy's eddy current damping and its advantages in multi-mode vibration control of stay-cable