Scientists solve 100-year mystery of reinforced rubber

May 13, 2026

Ti AI ṣe iroyin

Researchers at the University of South Florida have identified the mechanism that makes carbon black particles strengthen rubber, resolving a scientific puzzle that has lasted nearly a century. Their computer simulations reveal how the material resists stretching by effectively fighting against itself.

The team, led by engineering professor David Simmons, conducted 1,500 molecular dynamics simulations that totaled the equivalent of 15 years of computing time. Working with postdoctoral scholar Pierre Kawak and doctoral student Harshad Bhapkar, they showed that carbon black particles limit how much rubber thins when stretched. This forces the material to expand in volume, greatly increasing its stiffness and strength.

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Lab scene depicting contactless magnetic friction discovery: hovering metallic blocks with magnetic fields and graphs breaking Amontons' law.

Researchers discover contactless magnetic friction

March 22, 2026 Ti AI ṣe iroyin Àwòrán tí AI ṣe

Scientists at the University of Konstanz have identified a new type of sliding friction that occurs without physical contact, driven by magnetic interactions. This phenomenon breaks Amontons' law, a 300-year-old physics principle, by showing friction peaks at certain distances rather than increasing steadily with load. The findings appear in Nature Materials.

Scientists find simple liquids fracture like solids under stress

Researchers at Drexel University have discovered that certain viscous liquids can snap apart like solids when stretched with sufficient force. The finding, detailed in a study published in Physical Review Letters, challenges traditional views of fluid dynamics by linking the behavior to viscosity rather than elasticity. This phenomenon was observed in simple liquids such as tar-like hydrocarbons and styrene oligomer.

Scientists stabilize carbene in water, confirming vitamin B1 theory

April 11, 2026 Ti AI ṣe iroyin

Chemists at the University of California, Riverside have stabilized a highly reactive carbene molecule in water, proving a 67-year-old hypothesis about vitamin B1's role in the body. The breakthrough, detailed in Science Advances, resolves a long-standing biochemical puzzle. It also suggests potential for greener chemical manufacturing.

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Scientists synthesize silicon-based aromatic molecule after 50 years

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Physicists solve mystery of charge separation in volcanic lightning

Physicists have identified the role of carbon-containing molecules in determining charge polarity during particle collisions in volcanic ash clouds. This discovery explains the triboelectric effect that leads to volcanic lightning. The finding comes from experiments with silicon dioxide particles.

NYU scientists use light to control crystal formation

March 02, 2026 Ti AI ṣe iroyin

Researchers at New York University have developed a method to direct the assembly of microscopic particles into crystals using light. This technique, detailed in the journal Chem, allows for real-time control over crystal growth and dissolution. The approach could enable new responsive materials for applications in optics and photonics.

May 13, 2026 02:51