Influence of aging medium on recovery behaviors of CR/NR composite from circular deformation

Choi, Sung‐Seen; Jang, Joong Hee; Im, Song-Hee

doi:10.1007/s13233-010-0415-2

Cited by 3 publications

(2 citation statements)

References 15 publications

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“…In general, recovery of a rubber composite aged in air is greater than that aged in water due to the annealing effect by water. 18,22 At the first aging day of 10 days, recovery of the sample aged in the A®W altering system is greater than that aged in the W®A one. Both the altering aging medium systems have the same time periods of 5 days in air and 5 days in water.…”

Section: Resultsmentioning

confidence: 99%

Recovery Behaviors of Natural Rubber Composites Thermally Aged in Altering Medium Systems of Air and Water

Choi

Kim²

2013

Elastomers and Composites

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ABSTRACT：Unfilled, carbon black-filled, and silica-filled natural rubber (NR) composites were aged with a circular deformation at 60 -90℃ and the recovery behaviors were investigated. The samples were aged under the altering aging medium systems of air and distilled water every day for 10 days. The order of the recoveries according to the filler systems was unfilled > silica > carbon black. The recoveries of the samples aged in the air to water altering system were greater than those of the samples aged in the water to air altering system. The initial aging medium dominantly influenced the deformation level. Ⅰ. IntroductionRubber components have been used for sealants and isolators because rubber material has a recovery property to return to its original shape from deformation. 1 Testing methods to examine the recovery behaviors of a rubber composite are compression set test 2 , compression stress relaxation (CSR) 3,4 , and circular deformation test [5][6][7][8][9][10][11] . Compression set test according to the ISO 815 (Rubber, vulcanized or thermoplastic-Determination of compression set at ambient, elevated or low temperatures) is a common method to measure the degree of deformation of a rubber composite under compression state. However, specimens for the compression set are relatively thick (28.7 mm diameter and 12.7 mm height) and many samples are required for aging experiments so that differences in the initial states of the samples such as dimensions and crosslink densities cannot be negligible. In sealing applications, stress relaxation of a polymeric seal after assembly directly reduces the sealing force. Stress relaxation tests are gaining greater relevance for the determination of rubber properties. However, CSR also needs a special equipment for the test and it is not convenient.The circular deformation test method is a simple and reliable method to investigate the recovery behaviors of a rubber article such as the degree of permanent deformation, instantaneous recovery, and recovery rate, because thin specimens with 2 mm thickness in uniform states are used. [5][6][7][8][9][10][11] And it is also a suitable testing method for an aging experiment under various aging media such as water and organic solvents, because the specimen is small and a special equipment is not needed for aging experiment. This method just requires changing a linear sample to a circular form by fixing both ends with a pin to investigate the recovery behaviors of a rubber article. When a linear sample of a vulcanized rubber is circularly deformed, the stress and strain vary uniformly across the thickness of the sample. 9 If states of a rubber composite such as crosslink density,

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Section: Resultsmentioning

confidence: 99%

Recovery Behaviors of Natural Rubber Composites Thermally Aged in Altering Medium Systems of Air and Water

Choi

Kim²

2013

Elastomers and Composites

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“…Parameters affecting to permanently deform a rubber vulcanizate are the rearrangements of rubber chains and fillers and the change of crosslink density by aging. 2,[8][9][10][11][12][13][14]18 When a rubber article is deformed, the rubber chains are strained and their microstructures are changed. If the strained polymer chains are settled in the deformed state by rearrangement and stabilization, degree of the permanent deformation of the rubber article will increase and the recovery behaviors will also be influenced.…”

Section: ⅲ Results and Discussionmentioning

confidence: 99%

Influence of Aging Media and Filler System on Recovery Behaviors of Natural Rubber Composites

Choi

Kim²

2012

Elastomers and Composites

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ABSTRACT：Difference in recovery behaviors from the circular deformation of natural rubber (NR) composites aged in air and distilled water, respectively were investigated. Recoveries of the samples aged in air were larger than those of the samples aged in distilled water. Recovery rates of the samples reinforced with filler were faster than those of the unreinforced ones. Recovery rates of the carbon black-filled samples were faster than those of the silica-filled ones. Difference in the recovery behaviors according to the aging media can be explained by the crosslinking density changes and the annealing effect. 요 약：공기와

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Reinforcing efficiency and compatibilizing effect of sol–gel derived in situ silica for natural rubber/chloroprene rubber blends

Kapgate

Das

2014

RSC Adv.

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Influence of aging medium on recovery behaviors of CR/NR composite from circular deformation

Cited by 3 publications

References 15 publications

Recovery Behaviors of Natural Rubber Composites Thermally Aged in Altering Medium Systems of Air and Water

Recovery Behaviors of Natural Rubber Composites Thermally Aged in Altering Medium Systems of Air and Water

Influence of Aging Media and Filler System on Recovery Behaviors of Natural Rubber Composites

Reinforcing efficiency and compatibilizing effect of sol–gel derived in situ silica for natural rubber/chloroprene rubber blends

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