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3D Printing Doubles the Strength of Stainless Steel (sciencemag.org)

sciencehabit writes: Researchers have come up with a way to 3D print tough and flexible stainless steel, an advance that could lead to faster and cheaper ways to make everything from rocket engines to parts for nuclear reactors and oil rigs. The team designed a computer-controlled process to not only create dense stainless steel layers, but to more tightly control the structure of their material from the nanoscale to micron scale. That allows the printer to build in tiny cell wall-like structures on each scale that prevent fractures and other common problems. Tests showed that under certain conditions the final 3D printed stainless steels were up to three times stronger than steels made by conventional techniques and yet still ductile.
The work was done using a commercially-available 3D printer, according to Science magazine. "That makes it likely that other groups will be able to quickly follow their lead to make a wide array of high-strength stainless steel parts for everything from fuel tanks in airplanes to pressure tubes in nuclear power plants."

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  1. Re: Metal and Plastic by Solandri · · Score: 4, Interesting

    Even at a thousand times the cost of other methods, that would still be quite useful.

    While there are a myriad of factors which go into selecting the proper material for a design, the general criteria that steel is best at is strength per unit cost. If you can pay more, more exotic materials like titanium, tungsten, chromium, or amorphous ("glass") metals are stronger per unit volume than steel. If you need lighter weight, aluminum and magnesium tend to have more strength per unit mass. If you need temperature resistance, niobium, molybdenum tend to be better. etc.

    That said, a 2-3x strength increase is just huge, and could upset some of the generalities I listed above. It's been a decade since I delved into materials science, but a 2-3x stronger steel could displace both glass metals for strength per volume, and aluminum for strength per weight.

    The latter would have serious implications for the aerospace industry. The big drawback of aluminum (other than relatively low melting point, which isn't an issue in subsonic flight) is that it has a fatigue limit. With a steel structure, you can design it so that repeatedly flexing it no longer causes it to weaken. Aluminum has no such point - flexing it will always cause it to weaken (which is why it was stupid to make Curiosity's wheels out of aluminum). Fatigue failure of aluminum has been the cause of numerous airliner accidents, from the original de Havilland Comet, to Aloha 243, to JAL 123 (greatest loss of life from a single aircraft accident). It's why pressurized airframes are retired and destroyed after about 75,000-100,000 flights. If 3D printed steel has a higher strength per weight than aluminum, it would revolutionize aircraft design.