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Mathematical model reveals why cracks sharpen during rapid rubber fracture

Sharp cracks in rubber caused by viscoelasticity
Setup of viscoelastic crack propagation. Credit: Âé¶¹ÒùÔºical Review Research (2025). DOI: 10.1103/4gnw-ys42

A research group from the University of Osaka, Zen University, and the University of Tokyo has mathematically uncovered the mechanism that causes crack tips to sharpen during the rapid fracture of rubber.

The bursting of balloons or tire blowouts is caused by rapid fracture, a phenomenon in which a small crack propagates instantaneously. During this process, the crack tip sharpens, accelerating the fracture. However, the reason behind this sharpening had long remained unexplained. Traditionally, it was believed to result from the material's complex nonlinear effects.

The research group—comprising Hokuto Nagatakiya, a doctoral student; Shunsuke Kobayashi, assistant professor; and Ryuichi Tarumi, professor at the University of Osaka; along with Naoyuki Sakumichi, associate professor at Zen University and project associate professor at the University of Tokyo—has mathematically solved the problem of crack propagation. They derived equations that describe both the shape of the crack and the overall deformation of the material.

Sharp cracks in rubber caused by viscoelasticity
Changes in crack tip shape and strain distribution with crack propagation velocity. Credit: Âé¶¹ÒùÔºical Review Research (2025). DOI: 10.1103/4gnw-ys42

This breakthrough, now in Âé¶¹ÒùÔºical Review Research, demonstrates that crack tip sharpening in polymer materials such as rubber arises solely from their fundamental property of viscoelasticity. Furthermore, the team mathematically proved the viscoelastic trumpet theory—proposed nearly 30 years ago by Nobel Laureate in Âé¶¹ÒùÔºics, Pierre-Gilles de Gennes—based on the fundamental equations of continuum mechanics.

These findings lay a theoretical foundation for controlling fractures in a wide range of viscoelastic materials—from tires to —contributing to improved durability, accident prevention, and reduced through longer product lifespans.

More information: Hokuto Nagatakiya et al, Analytical expression for fracture profile in viscoelastic crack propagation, Âé¶¹ÒùÔºical Review Research (2025).

Provided by Japan Science and Technology Agency (JST)

Citation: Mathematical model reveals why cracks sharpen during rapid rubber fracture (2025, October 21) retrieved 21 October 2025 from /news/2025-10-mathematical-reveals-sharpen-rapid-rubber.html
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