Just as a snowflake's intricate structure vanishes when it melts and transforms when it refreezes, the microstructure of ...

Cornell University researchers have uncovered a way to control transformations in metal solidification by adjusting alloy composition, ultimately leading to stronger, more reliable metal parts.

Just as a snowflake's intricate structure vanishes when it melts and transforms when it refreezes, the microstructure of metals can change during the ...

In order to favorably influence the electrochemical properties of these highly reactive alkali metals, understanding their ...

In thinking about how the microstructure of metals and alloys influence dislocation motion, and hence the mechanical properties of these materials, it is useful to remember that the dislocation line ...

Understanding how the microstructure and composition of these metals change when subjected to different heat treatments is key for creating products with desired performance and longevity.

The discovery is a fundamental breakthrough in polymer research, as it opens up new possibilities for the development of more ...

Cornell scientists have discovered a way to enhance the strength and reliability of 3D-printed metals by controlling their microstructure. By adjusting alloy compositions—specifically manganese and ...