The atomic structure of a pure metal is orderly and allows electrons to flow freely through the material. In bronze, the addition of tin to copper restricts the movement of the copper atoms.

Finding new alloys just became simpler Date: September 16, 2021 Source: University of Groningen Summary: In metal alloys, behavior at the atomic scale affects the material's properties.

PROF. W. L. BRAGG, in the twenty-fifth annual May Lecture before the Institute of Metals on May 8, dealt with the inner structure, or atomic arrangement, of metals and alloys. In general, when one ...

A team led by UCLA researchers used an advanced imaging technique to develop 3D maps of the individual atoms of medium- and high-entropy alloys — a scientific first. Medium- and high-entropy ...

To understand what made their new alloy so incredibly strong, Morosan and her team peered into the metal's atomic structure with electron microscopes.

Many solid substances, including metals, exist in a crystalline form characterized by a repeating 3D atomic pattern, called a unit cell, that makes up a larger structure called a lattice.

Sep. 16, 2021 — In metal alloys, behavior at the atomic scale affects the material's properties. However, the number of possible alloys is astronomical. Scientists developed a theoretical model ...

The process to create these alloys resembles an extreme—and extremely fast—version of the blacksmith's task. The scientists liquified the metal at over 2,000° Fahrenheit for five-hundredths ...

Jul 03, 2024: Liquid metal nanoreactors enable synthesis of high-entropy alloy nanoparticle arrays (Nanowerk Spotlight) The field of high-entropy alloys (HEAs) has emerged as a promising frontier in ...