Updated
Updated · Quanta Magazine · Jul 10
Drexel Researchers Show Simple Fluids Fracture at 500-1,500 m/s, Challenging 2 MPa Liquid Theory
Updated
Updated · Quanta Magazine · Jul 10

Drexel Researchers Show Simple Fluids Fracture at 500-1,500 m/s, Challenging 2 MPa Liquid Theory

1 articles · Updated · Quanta Magazine · Jul 10

Summary

  • A Drexel team found that a nonelastic simple fluid can snap apart under extensional stress, overturning the long-held view that such liquids only flow rather than fracture.
  • High-speed imaging showed a brittle, glass-like crack that raced through the hydrocarbon blend at about 500 to 1,500 meters per second—far faster than the roughly 0.07 m/s seen earlier in complex polymer fluids.
  • The researchers said both simple and complex fluids they tested tended to fail near a critical stress of 2 megapascals, while the least viscous sample did not fracture under their machine’s 500 millimeters-per-second limit.
  • The result revives a 1990s idea that cavitation and molecular cohesion—not elasticity alone—may govern when liquids break, with possible implications for fiber spinning, inkjet printing, soft robotics and protective materials.

Insights

A liquid that cracks like a solid rewrites physics. Which fundamental law of fluids is now broken?
If oil can shatter like glass, what does it take to make everyday liquids like water crack?