Excerpt from the August 19, 1967, issue of Science News
Fundamental scientific knowledge of the behavior of metallic crystals has led to the design of a new series of alloy steels, stronger and tougher than those now available. The new alloys can be stretched from two to five times more than previous ones, yet also have high strength…. The alloys, called TRIP steels, are produced by [the process] Transformation Induced Plasticity. — Science News, August 19, 1967
TRIP steels are still used in cars. But the quest for a strong, lightweight steel continues, spurred by better knowledge of how a material’s nanostructure affects its overall properties. One surprising approach: embedding tiny, brittle iron-aluminum grains within steel. A bit of nickel helps position the grains properly and prevents small cracks from spreading, researchers reported in 2015 in Nature. Another method makes steel with variable nanoscale layers, similar to bone (SN: 4/15/17, p. 5). The inconsistent microstructure disrupts emerging cracks, preventing them from traveling in a straight line.
Science News Staff. Ductile, strong steel. Science News. Vol. 92, August 19, 1967, p. 177.
S.-H. Kim, H. Kim and N.J. Kim. Brittle intermetallic compound makes ultrastrong low-density steel with large ductility. Nature. Vol. 518, February 5, 2015, p. 77. doi: 0.1038/nature14144.