Unraveling Non‐Uniform Strain‐Induced Crystallization Near a Crack Tip in Natural Rubber

Mai, Thanh‐Tam; Yasui, Tomohiro; Tanaka, Ruito; Masunaga, Hiroyasu; Kabe, Taizo; Tsunoda, Katsuhiko; Sakurai, Shinichi; Urayama, Kenji

doi:10.1002/advs.202307741

Advanced Science

2024

DOI: 10.1002/advs.202307741

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Unraveling Non‐Uniform Strain‐Induced Crystallization Near a Crack Tip in Natural Rubber

Thanh‐Tam Mai,

Tomohiro Yasui,

Ruito Tanaka

et al.

Abstract: Strain‐induced crystallization (SIC) in natural rubber (NR) near crack tips significantly enhances crack growth resistance, but understanding the interplay between local strain field and crystallization remains challenging due to confined and heterogeneous characteristics. Using micro‐scale digital image correlation (DIC) and scanning wide‐angle X‐ray diffraction (WAXD, with a narrow 10 µm square beam), this study maps local strain tensor properties and SIC in the vicinity of the crack tip and its peripheral z… Show more

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Cited by 6 publications

References 79 publications

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Effects of thermal treatments on the fracture behaviour of a silica-filled NBR: A study on the recovery of the Mullins effect and on the stretch-induced cavity formation

Bianucci,

Denora,

Marano

2024

Mechanics of Materials

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Effects of thermal treatments on the fracture behaviour of a silica-filled NBR: A study on the recovery of the Mullins effect and on the stretch-induced cavity formation

Bianucci,

Denora,

Marano

2024

Mechanics of Materials

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A chemical modification-free strategy for fabricating tough and tear-resistant natural rubber/polysaccharide material

Huang,

Zhang,

Kong

et al. 2025

Polymer

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Tough and Durable Slide-Ring Ion Gels for Stretchable Electronics Leveraging Strain-Induced Crystallization of Poly(ethylene glycol)

Enoki,

Hashimoto,

Oda

et al. 2024

Macromolecules

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Conventional ion gels comprising ionic liquids (ILs) and polymer networks exhibit a trade-off between mechanical toughness and durability. Despite their promising electrochemical properties, this tradeoff has limited their applicability in stretchable electronics subjected to successive and high-frequency deformation. In this study, we have fabricated tough and durable ion gels by using reversible strain-induced crystallization (SIC) of poly(ethylene glycol) (PEG) in slide-ring (SR) ion gels, in which PEG chains are cross-linked by ring molecules. SIC provides mechanical toughness without irrevocably changing their network structure after experiencing repetitive deformation. We highlight the outstanding ion-transport and mechanical properties of SR ion gels swollen with 1-ethyl-3-methylimidazolium bis(trifluoromethanesulfonyl) imide ([C 2 mim][NTf 2 ]). SR ion gels displayed ion-conductivity values >1 mS cm −1 at 313 K, rupture energy comparable to the highest values reported for ion gels, as well as constant stress−strain relationships over thousands of recurrent loading−unloading cycles. In this study, we demonstrated that SIC can overcome the typical dilemma of toughness and durability in existing ion gels.

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Unraveling Non‐Uniform Strain‐Induced Crystallization Near a Crack Tip in Natural Rubber

Cited by 6 publications

References 79 publications

Effects of thermal treatments on the fracture behaviour of a silica-filled NBR: A study on the recovery of the Mullins effect and on the stretch-induced cavity formation

Effects of thermal treatments on the fracture behaviour of a silica-filled NBR: A study on the recovery of the Mullins effect and on the stretch-induced cavity formation

A chemical modification-free strategy for fabricating tough and tear-resistant natural rubber/polysaccharide material

Tough and Durable Slide-Ring Ion Gels for Stretchable Electronics Leveraging Strain-Induced Crystallization of Poly(ethylene glycol)

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