Effect of network-chain length on strain-induced crystallization of NR and IR vulcanizates

Masatoshi Tosaka; Shinzo Kohjiya; Syozo Murakami; Sirilux Poompradub; Yuko Ikeda; Shigeyuki Toki; Igors Sics; Benjamin S. Hsiao

doi:10.5254/1.3547846

Effect of network-chain length on strain-induced crystallization of NR and IR vulcanizates

Masatoshi Tosaka
, Shinzo Kohjiya
, Syozo Murakami
, Sirilux Poompradub
, Yuko Ikeda
, Shigeyuki Toki
, Igors Sics
, Benjamin S. Hsiao

Chemistry

Kyoto University
Kyoto Institute of Technology
Stony Brook University

Research output: Contribution to journal › Article › peer-review

111 Scopus citations

Abstract

Strain-induced crystallization of natural rubber (NR) and synthetic isoprene rubber (IR) with various crosslinking densities was investigated by wide angle X-ray diffraction using a synchrotron radiation and simultaneous tensile measurements. The elongation ratio at the onset of crystallization (α_c) was almost independent of crosslinking density. IR samples showed larger α_c values than NR because of the lower stereoregularity of IR. These results suggest that the onset of crystallization is determined by increased melting temperature by strain due to an entropic reason. The amount of oriented amorphous component changed approximately linearly with strain, and was a little larger in IR than in NR when compared at the same elongation ratio. At small strain (and stress), crystallinity in IR was lower than in NR. These results indicate that, at small strain region, the more stress is assigned to oriented amorphous in IR than in NR.

Original language	English
Pages (from-to)	711-723
Number of pages	13
Journal	Rubber Chemistry and Technology
Volume	77
Issue number	4
DOIs	https://doi.org/10.5254/1.3547846
State	Published - 2004

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title = "Effect of network-chain length on strain-induced crystallization of NR and IR vulcanizates",

abstract = "Strain-induced crystallization of natural rubber (NR) and synthetic isoprene rubber (IR) with various crosslinking densities was investigated by wide angle X-ray diffraction using a synchrotron radiation and simultaneous tensile measurements. The elongation ratio at the onset of crystallization (αc) was almost independent of crosslinking density. IR samples showed larger αc values than NR because of the lower stereoregularity of IR. These results suggest that the onset of crystallization is determined by increased melting temperature by strain due to an entropic reason. The amount of oriented amorphous component changed approximately linearly with strain, and was a little larger in IR than in NR when compared at the same elongation ratio. At small strain (and stress), crystallinity in IR was lower than in NR. These results indicate that, at small strain region, the more stress is assigned to oriented amorphous in IR than in NR.",

author = "Masatoshi Tosaka and Shinzo Kohjiya and Syozo Murakami and Sirilux Poompradub and Yuko Ikeda and Shigeyuki Toki and Igors Sics and Hsiao, \{Benjamin S.\}",

year = "2004",

doi = "10.5254/1.3547846",

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volume = "77",

pages = "711--723",

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T1 - Effect of network-chain length on strain-induced crystallization of NR and IR vulcanizates

AU - Tosaka, Masatoshi

AU - Kohjiya, Shinzo

AU - Murakami, Syozo

AU - Poompradub, Sirilux

AU - Ikeda, Yuko

AU - Toki, Shigeyuki

AU - Sics, Igors

AU - Hsiao, Benjamin S.

PY - 2004

Y1 - 2004

N2 - Strain-induced crystallization of natural rubber (NR) and synthetic isoprene rubber (IR) with various crosslinking densities was investigated by wide angle X-ray diffraction using a synchrotron radiation and simultaneous tensile measurements. The elongation ratio at the onset of crystallization (αc) was almost independent of crosslinking density. IR samples showed larger αc values than NR because of the lower stereoregularity of IR. These results suggest that the onset of crystallization is determined by increased melting temperature by strain due to an entropic reason. The amount of oriented amorphous component changed approximately linearly with strain, and was a little larger in IR than in NR when compared at the same elongation ratio. At small strain (and stress), crystallinity in IR was lower than in NR. These results indicate that, at small strain region, the more stress is assigned to oriented amorphous in IR than in NR.

AB - Strain-induced crystallization of natural rubber (NR) and synthetic isoprene rubber (IR) with various crosslinking densities was investigated by wide angle X-ray diffraction using a synchrotron radiation and simultaneous tensile measurements. The elongation ratio at the onset of crystallization (αc) was almost independent of crosslinking density. IR samples showed larger αc values than NR because of the lower stereoregularity of IR. These results suggest that the onset of crystallization is determined by increased melting temperature by strain due to an entropic reason. The amount of oriented amorphous component changed approximately linearly with strain, and was a little larger in IR than in NR when compared at the same elongation ratio. At small strain (and stress), crystallinity in IR was lower than in NR. These results indicate that, at small strain region, the more stress is assigned to oriented amorphous in IR than in NR.

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DO - 10.5254/1.3547846

M3 - Article

AN - SCOPUS:10044296365

SN - 0035-9475

VL - 77

SP - 711

EP - 723

JO - Rubber Chemistry and Technology

JF - Rubber Chemistry and Technology

IS - 4

ER -

Effect of network-chain length on strain-induced crystallization of NR and IR vulcanizates

Abstract

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