Splet01. apr. 2024 · The Payne effect is a particular feature of the stress-strain behaviour of rubber, especially rubber compounds containing fillers such as carbon black. It is named after the British rubber scientist A. R. Payne, who … SpletThe Payne effect is mainly bound up with the filler network produced in the rubber matrix. Taking silica filler as an example, the rubber trapped between the fillers would lose activity, and the filler–filler network is increased.
Payne-Effekt – Wikipedia – ENZYKLOPADIE
Splet02. jan. 2024 · Payne effects during NR reinforcement by the graft-modified carbon black (GCB) were analyzed in this paper. The results showed a proportional relationship … SpletThe Payne effect was calculated as the difference between the storage modulus, G’ at 0.56% and G’ at 100.04% strain. The Payne effect after cure was measured after vulcanization in the RPA 2000 at 150ºC for 10 minutes and subsequent cooling to 100ºC, making use of the same strain sweep conditions. bruins logo shaved side of head
A theoretical model of amplitude-dependent dynamical stiffness …
SpletThe Payne Effect testing measures the stress-strain behavior of tested materials. Physically, the Payne effect can be attributed to deformation-induced changes in a material’s microstructure, i.e. to breakage and recovery of weak physical bonds linking adjacent filler clusters. SpletfThe Payne effect in filled rubber is the phenomenon of a strain dependent dynamic modulus. In carbon black or silica filled rubber we measure a high dynamic modulus at low strains (< 1%) which decreases at higher strains (> 10%). The reason for this phenomenon is the formation of a network formed by filler-filler interaction. SpletHow to Model the Payne Effect in Rubbers - YouTube 0:00 / 17:01 Introduction How to Model the Payne Effect in Rubbers PolymerFEM 1.72K subscribers Subscribe 22 Share … bruins luxury box