2018
DOI: 10.1177/0021998318766227
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Compressive ratcheting and creep of non-asbestos fibre composite considering temperature effect

Abstract: Compressive ratcheting response and creep of non-asbestos fibre composite are tested based on a designed compression–compression clamp for plate-shape specimens. The influences of temperature, stress amplitude and stress rate are discussed in detail. A two-stage constitutive model is developed to describe the compression-resilience relationship of non-asbestos fibre composite. Results present that a crescent-shaped stress–strain relationship of non-asbestos fibre composite is observed under repeated compressio… Show more

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Cited by 8 publications
(1 citation statement)
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References 31 publications
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“…The ratcheting effect is an key index to assess the shakedown behaviour of eigineering structures . Moreover, temperature‐dependent and time‐dependent ratcheting behaviours of nonmetallic material, such as PTFE, polycarbonate polymers, polyacetal, PVDF, PEEK, and nonasbestos fibre, have also been investigated widely. Recently, micromechanisms and macromechanisms of compression and recovery behaviour of flexible graphite have been investigated by Toda et al Results present that the microscopic compression/recovery behaviour of flexible graphite is impacted by the highly localized deformation of thin expanded graphite discs, while its macroscopic deformation is induced by the combined effect of bending and thickness reduction of the discs.…”
Section: Introductionmentioning
confidence: 99%
“…The ratcheting effect is an key index to assess the shakedown behaviour of eigineering structures . Moreover, temperature‐dependent and time‐dependent ratcheting behaviours of nonmetallic material, such as PTFE, polycarbonate polymers, polyacetal, PVDF, PEEK, and nonasbestos fibre, have also been investigated widely. Recently, micromechanisms and macromechanisms of compression and recovery behaviour of flexible graphite have been investigated by Toda et al Results present that the microscopic compression/recovery behaviour of flexible graphite is impacted by the highly localized deformation of thin expanded graphite discs, while its macroscopic deformation is induced by the combined effect of bending and thickness reduction of the discs.…”
Section: Introductionmentioning
confidence: 99%