Special Report: The completion of commercial-scale pilot trials has validated the use of Andromeda Metals’ Great White CRMTM in ceramic glaze formulations, proving it to be a reliable, high ...

Both components secrete biopolymers that enhance the adhesion and cohesion among Martian regolith and precipitated particles to create a consolidated body.

Inhabiting Mars has long been a futuristic fantasy fueled by science fiction. However, successful landings over the past half-century have made this seemingly far-fetched idea increasingly plausible.

What does the storm look like from above? Satellite imagery can help determine the strength, size and cohesion of a storm. The stronger a storm becomes, the more likely an eye will form in the center.

Fabrication of Unprecedented Fully Biobased Recyclable Underwater Adhesives with High Bonding Strength and Water Resistance via an Adhesion-Cohesion Balance of Bioinspired Catechol-Disulfide Bond ...

How plants get water. Water moves through the soil by capillary action, which involves processes called adhesion and cohesion. Pore size and soil texture influence this movement. Cohesion works like ...

The byssus-mediated adhesion of marine mussels is a widely mimicked system for robust adhesion in both dry and wet conditions. Mussel holdfasts are fabricated from proteins that contain a significant ...

Other findings are allowing a better understanding of electrostatic phenomena that play a positive role in electrostatic adhesion and cohesion of nanocomposites made from biomass products. Moreover, ...

The ingress of water reduces the adhesion between the bituminous binder and aggregates, progressively weakening the mixture’s cohesion and accelerating its failure under repeated loading [5].

The secret behind the mollusks’ powerful underwater glues are proteins with catechol groups that provide cross-linking for robust adhesion and cohesion. Tannic acid contains similar catechol groups.

The scientists hope that the results of the study will contribute to the future development of new active substances to specifically target cellular adhesion points.

New research led by the University of Akron and the University of Pittsburgh has revealed that under certain conditions, water can improve adhesion.