AI Article Synopsis
- The strength of materials varies with the rate at which they are tested, with defects like dislocations reacting to applied strains and influencing material performance.
- Microballistic impact testing has revealed that copper can experience a strength increase of about 30% when temperature rises by 157°C, a phenomenon also seen in titanium and gold.
- This unexpected thermal strengthening arises from a shift in the deformation mechanism, highlighting new approaches to model material properties under extreme conditions, useful for applications like high-speed manufacturing and hypersonic transport.
Article Abstract
The strength of materials depends on the rate at which they are tested, as defects, for example dislocations, that move in response to applied strains have intrinsic kinetic limitations. As the deformation strain rate increases, more strengthening mechanisms become active and increase the strength. However, the regime in which this transition happens has been difficult to access with traditional micromechanical strength measurements. Here, with microballistic impact testing at strain rates greater than 10 s, and without shock conflation, we show that the strength of copper increases by about 30% for a 157 °C increase in temperature, an effect also observed in pure titanium and gold. This effect is counterintuitive, as almost all materials soften when heated under normal conditions. This anomalous thermal strengthening across several pure metals is the result of a change in the controlling deformation mechanism from thermally activated strengthening to ballistic transport of dislocations, which experience drag through phonon interactions. These results point to a pathway to better model and predict materials properties under various extreme strain rate conditions, from high-speed manufacturing operations to hypersonic transport.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11153132 | PMC |
| http://dx.doi.org/10.1038/s41586-024-07420-1 | DOI Listing |
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