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- Payne_effect abstract "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 made extensive studies of the effect (e.g. Payne 1962). The effect is sometimes also known as the Fletcher-Gent effect, after the authors of the first study of the phenomenon (Fletcher & Gent 1953). The effect is observed under cyclic loading conditions with small strain amplitudes, and is manifest as a dependence of the viscoelastic storage modulus on the amplitude of the applied strain. Above approximately 0.1% strain amplitude, the storage modulus decreases rapidly with increasing amplitude. At sufficiently large strain amplitudes (roughly 20%), the storage modulus approaches a lower bound. In that region where the storage modulus decreases the loss modulus shows a maximum. The Payne effect depends on the filler content of the material and vanishes for unfilled elastomers. Physically, the Payne effect can be attributed to deformation-induced changes in the material's microstructure, i.e. to breakage and recovery of weak physical bonds linking adjacent filler clusters. Since the Payne effect is essential for the frequency and amplitude-dependent dynamic stiffness and damping behaviour of rubber bushings, automotive tires and other products, constitutive models to represent it have been developed in the past (e.g. Lion et al. 2003). Similar to the Payne effect under small deformations is the Mullins effect that is observed under large deformations.".
- Payne_effect thumbnail Payne_Effect_in_filled_rubber.png?width=300.
- Payne_effect wikiPageID "4667184".
- Payne_effect wikiPageLength "2646".
- Payne_effect wikiPageOutDegree "15".
- Payne_effect wikiPageRevisionID "634731259".
- Payne_effect wikiPageWikiLink A._R._Payne.
- Payne_effect wikiPageWikiLink Alan_Neville_Gent.
- Payne_effect wikiPageWikiLink Carbon_black.
- Payne_effect wikiPageWikiLink Category:Rubber_properties.
- Payne_effect wikiPageWikiLink Deformation_(engineering).
- Payne_effect wikiPageWikiLink Dynamic_modulus.
- Payne_effect wikiPageWikiLink Elastomer.
- Payne_effect wikiPageWikiLink Filler_(materials).
- Payne_effect wikiPageWikiLink Mullins_effect.
- Payne_effect wikiPageWikiLink Natural_rubber.
- Payne_effect wikiPageWikiLink Rubber_Chemistry_and_Technology.
- Payne_effect wikiPageWikiLink Tire.
- Payne_effect wikiPageWikiLink Viscoelasticity.
- Payne_effect wikiPageWikiLink File:Payne_Effect_in_filled_rubber.png.
- Payne_effect wikiPageWikiLinkText "Fletcher-Gent effect".
- Payne_effect wikiPageWikiLinkText "Payne effect".
- Payne_effect wikiPageUsesTemplate Template:Doi-inline.
- Payne_effect subject Category:Rubber_properties.
- Payne_effect hypernym Feature.
- Payne_effect type Work.
- Payne_effect type Elastomer.
- Payne_effect type Property.
- Payne_effect comment "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 made extensive studies of the effect (e.g. Payne 1962). The effect is sometimes also known as the Fletcher-Gent effect, after the authors of the first study of the phenomenon (Fletcher & Gent 1953).".
- Payne_effect label "Payne effect".
- Payne_effect sameAs Q7156840.
- Payne_effect sameAs m.0cg94p.
- Payne_effect sameAs Q7156840.
- Payne_effect wasDerivedFrom Payne_effect?oldid=634731259.
- Payne_effect depiction Payne_Effect_in_filled_rubber.png.
- Payne_effect isPrimaryTopicOf Payne_effect.