Influence of the cure systems on long time thermal aging behaviors of NR composites

Choi, Sung Seen; Kim, Jong Chul; Lee, Seung Goo; Joo, Yong Lak

doi:10.1007/bf03218560

Cited by 20 publications

(27 citation statements)

References 10 publications

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“…This is because, as the aging proceeds [29], the molecular weight of the rubber increases and chain molecules are generated, thereby widening the molecular-weight distribution. Thus, the rubber molecules have reduced flexibility [30], which limits the intermolecular slippage and reduces the swelling [31]. In the case of unaged specimens, the initial crosslink density is about 4.5 × 10 −5 mol/cm 3 , and it can be confirmed that the crosslink density increases up to 14.5 × 10 −5 mol/cm 3 as the aging progresses.…”

Section: Swelling-test Resultsmentioning

confidence: 87%

Study on the Aging Behavior of Natural Rubber/Butadiene Rubber (NR/BR) Blends Using a Parallel Spring Model

et al. 2018

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Natural rubber/butadiene rubber (NR/BR) blends are widely used in industrial areas for absorbing vibrations and shocks because of their excellent elastic stability. However, when an industrial-equipment surface is exposed to sunlight and oxygen over a long period of time, the rubber hardens. As a result, the tensile properties of the rubber material and the behavior of the strain-energy density function are changed, greatly reducing the performance of the rubber product. However, only a few experimental studies on the aging characteristics of NR/BR blends are available, and it is difficult to find a study that analyzes the organic relationship of the changes in the mechanical (stress-strain curves, strain-energy density, etc.) and chemical (cross-linked structure, crosslink density, etc.) properties. In this study, a swelling test was performed on an aged rubber compound, and the result was substituted into the Flory-Rehner equation to obtain the quantitative crosslink density. The results revealed a linear relationship between the strain-energy density (SED) and the crosslink density (CLD) when the cross-linked structure increase was represented by a parallel spring model. Finally, the relationship between the strain-energy density and the crosslink density was summarized as a formula, and a method for predicting the aging behavior of NR/BR blends using the crosslink density was proposed.

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Section: Swelling-test Resultsmentioning

confidence: 87%

Study on the Aging Behavior of Natural Rubber/Butadiene Rubber (NR/BR) Blends Using a Parallel Spring Model

et al. 2018

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“…The values are relatively much lower than those of general R group rubbers such as NR, BR, SBR, and NBR. [2][3][4][5][6][7][8][9][10] The crosslink densities of the EPDM composite increased after thermal aging irrespective of the aging temperatures and the aging times. The crosslink densities of the BIIR composite also increased after thermal aging except the long-term thermal aging at high temperatures.…”

Section: ⅲ Results and Discussionmentioning

confidence: 99%

“…For the long-term themal aging of the IIR and BIIR compo- [5][6][7] The crosslink densities of the IIR and BIIR composites after thermal aging at 90 ℃ for a long time above 100 days also decreased as shown in Figure 4(b). This may be due to the chain scissions of the IIR and BIIR by oxidation.…”

Section: ⅲ Results and Discussionmentioning

confidence: 99%

“…Amounts of HPPD remained in the rubber samples after thermal aging at 90 ℃ for 35 days were negligible as shown in Figures. [5][6][7] Activation energies for the ΔXcs by thermal aging were obtained from the Arrhenius plot of lnk vs 1/T, where k is the ΔXc and T is the aging temperature, to compare the thermal aging behaviors of the EPDM, IIR, and BIIR composites. The activation energies varied with the aging time as shown in Figure 8.…”

Section: ⅲ Results and Discussionmentioning

confidence: 99%

“…1 Hence, degrees of crosslink density changes of the R group rubber composites by themal aging are relatively high, and their physical and chemical properties are also changed. [2][3][4][5][6][7][8][9][10] Of R group rubbers, isobutene-isoprene rubber (butyl rubber, IIR) has relatively good thermal resistance properties since it has only isoprene content with less than 3 wt%. 11,12 Crosslink type and degree of crosslink density of a rubber vulcanizate determine the physical properties such as modulus, hardness, resilience, elongation at break, heat build-up, and so forth.…”

Section: ⅰ Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Thermal Aging Behaviors of Weather Resistant Rubber Composites of EPDM, IIR, and BIIR

Choi

Kim²

2012

Elastomers and Composites

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ABSTRACT：EPDM, IIR, and BIIR composites were thermally aged and the crosslink density changes were investigated. Crosslink densities of the EPDM composite increased with increasing the aging time and temperature, whereas those of IIR and BIIR composites for long-term aging at high temperatures tended to decrease. Activation energies for the crosslink density changes of the EPDM composite were higher than those of the BIIR one. The experimental results were explained with the number of allylic hydrogens, activation of the zinc complex, the steric hindrance effect, and oxidation of rubber chain. Ⅰ. IntroductionR group rubbers such as natural rubber (NR), butadiene rubber (BR), styrene-butadiene rubber (SBR), and acrylonitrilebutadiene rubber (NBR) have unsaturated hydrocarbon (C=C double bond) backbones. Due to the C=C double bond backbones, they have lots of allylic hydrogens which participate in sulfur crosslinking reaction. 1 Hence, degrees of crosslink density changes of the R group rubber composites by themal aging are relatively high, and their physical and chemical properties are also changed. 2-10 Of R group rubbers, isobutene-isoprene rubber (butyl rubber, IIR) has relatively good thermal resistance properties since it has only isoprene content with less than 3 wt%. 11,12 Crosslink type and degree of crosslink density of a rubber vulcanizate determine the physical properties such as modulus, hardness, resilience, elongation at break, heat build-up, and so forth. 13 Sulfide linkages, especially polysulfides, are dissociated by heating 14,15 and this brings about decrease of the crosslink density. Curatives, especially sulfur, in rubber vulcanizates make new crosslinks 16 and this results in increase of the crosslink density. Crosslink density of a rubber vulcanizate is changed by thermal aging. 4,[17][18][19][20] In general, when sulfur-cured rubber vulcanizates are thermally aged, the crosslink densities increase and the degree also increases as the aging temperature and time increase. [21][22][23] Crosslink density change by thermal aging is also one of reasons about permanent deformation of a rubber vulcanizate. [21][22][23] Brown and coworkers reported physical property changes of rubber composites after natural aging for 40 years and compared with the accelerated heat aging results. 24,25 Relative deviations for the physical property changes of naturally aged rubber vulcanizates were very big but the results were valuable. The big deviation of the physical property may be due to the difference in the initial states of the samples. A number of samples are needed to measure physical properties and to perform thermal aging for a long time. Sample size should be small to minimize the experimental errors, but relatively large sample size for measurement of the physical properties should

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The relationship of vulcanization and structural characteristics‐dispersion of organoclay‐mechanical properties in (butadiene rubber/natural rubber) based nanocomposite

Zarei

Jalali‐Arani

2017

Adv Polym Technol

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Nanocomposites based on (organoclay [OC]/butadiene rubber [BR]/natural rubber [NR]) containing different ratio of (sulfur/accelerator [dibenzothiazyl disulfide (MBTS)] or N-Oxydiethyl-2-benzthiazolsulfenamid (NOBS)) were prepared.Evaluation of the vulcanization characteristics showed that the curing system and the type of the used accelerator affected the impact of the OC on the scorch and cure times. The crosslink density and the percentage of polysulfide bonds of the compounds were enhanced by using OC. X-ray diffraction (XRD) analysis showed that the type of curing system and the used accelerator affected the network structure as well as the expansion of the interlayer space of the OC. In nanocomposites with less crosslink density and less polysulfide bonds, greater expansion of the OC interlayer spaces was observed. The use of the OC and its effect on the level of crosslink density and percent of polysulfide bonds affected the tensile properties and abrasion loss of the samples. K E Y W O R D S mechanical properties, nanocomposites, organoclay, rubber, vulcanization 1470 |

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Influence of the cure systems on long time thermal aging behaviors of NR composites

Cited by 20 publications

References 10 publications

Study on the Aging Behavior of Natural Rubber/Butadiene Rubber (NR/BR) Blends Using a Parallel Spring Model

Study on the Aging Behavior of Natural Rubber/Butadiene Rubber (NR/BR) Blends Using a Parallel Spring Model

Thermal Aging Behaviors of Weather Resistant Rubber Composites of EPDM, IIR, and BIIR

The relationship of vulcanization and structural characteristics‐dispersion of organoclay‐mechanical properties in (butadiene rubber/natural rubber) based nanocomposite

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