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The World's First 3D-Printed Steel Bridge (popularmechanics.com) 40

An anonymous reader quotes a report from Popular Mechanics, written by Laura Rider: After four long years of planning, the world's first 3D-printed steel bridge debuted in Amsterdam last month. If it stands up to the elements, the bridge could be a blueprint for fixing our own structurally deficient infrastructure in the U.S. -- and we sorely need the help. Dutch Company MX3D built the almost 40-foot-long bridge for pedestrians and cyclists to cross the city's Oudezijds Achterburgwal canal. It relied on four robots, fit with welding torches, to 3D-print the structure. To do it, the machines laid out 10,000 pounds of steel, heated to 2,732 degrees Fahrenheit, in an intricate layering process. The result? An award-winning design, pushing the boundaries of what steel can do.

Designers first came up with the concept for the bridge in 2015, with the goal of making an exceptionally efficient structure. To do so, they had to emphasize two things: simplicity and safety. To monitor the efficiency of their design, scientists at Imperial College London engineered the bridge to be a "living laboratory." A team of structural engineers, computer scientists, and statisticians developed a system of over one dozen embedded sensors for the bridge, which send live data to the university for further analysis of the bridge's performance. They monitor the bridge's movement, vibration, temperature, strain (the change in shape and size of materials under applied forces), and displacement (the amount an object shifts in a specific direction) over time. From that data, scientists built a "digital twin" -- computer science parlance for an identical, virtual rendering -- of the bridge that gets more accurate over time. With machine learning, they can now look for trends that might suggest modifications are in order.

For this bridge, designers utilized two methods of 3D printing -- Direct Energy Deposit (DED) and Powder Bed Fusion (PBF). With DED, the printer feeds material (typically in powder or wire form) through a pen-like nozzle, and an intense heat source (typically a laser, but sometimes an electron beam) melts the metal on contact. PBF works similarly in that a laser or electron beam melts powder down to build each layer. The main advantage of PBF, though, is that it operates with much smaller (and more expensive) parts, resulting in a higher-resolution project than DED could accomplish on its own. This allows designers to take their visions a step further.

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The World's First 3D-Printed Steel Bridge

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  • I watched that video in anticipation, expecting to see some Golden Gate II level bridge .. instead, man that thing was tiny. As disappointed as Trump's date. Seriously, could have gone to home depot, gotten a plank, nailed it down, and called it a day.

    • by HiThere ( 15173 )

      If it's the bridge I read about earlier, it's full of things like strain testers, etc. and is basically a scale model so they can figure out whether this process can be used for larger bridges. But it is also a useful pedestrian bridge, so why waste it.

  • by SubmergedInTech ( 7710960 ) on Wednesday August 25, 2021 @11:10PM (#61730999)

    And carbon, and other things. It's obnoxiously hard to 3D print some plastics on a small extruder even with a heated bed and an enclosure. They claim less material use because they can print complex shapes, but how does strength vs. weight compare because basically the entire bridge is one big weld?

    • by backslashdot ( 95548 ) on Wednesday August 25, 2021 @11:19PM (#61731007)

      My friends in aerospace claim 3D printed steel is much stronger than steel made the conventional way. Reference: https://www.sciencemag.org/new... [sciencemag.org]

      • by freax ( 80371 ) on Thursday August 26, 2021 @03:44AM (#61731251) Homepage

        Your friend needs to read the part that says 'under certain conditions'.

        • So? Everything has "certain conditions" attached to it. I am sure paper beats steel under certain conditions too. Anyway, 3D printing is good enough to build rocket engines and the whole rocket itself .. what does that tell you? https://www.relativityspace.co... [relativityspace.com] Also, regarding the bridge .. they did structural tests on that bridge for 2 years before installing it.

          • So? Because "your friend" made an absolute statement, which was false, leaving unaddressed whether those certain conditions are more or less than the conditions where it's not "much stronger than steel made the conventional way".
            • No it's not false at all. Aerospace, which has the most stringent durability and strength requirements, is moving to 3D printing for everything from rocket engines to jet engine turbine blades. If you didn't know that, I suggest you educate yourself. I provided multiple references, not anecdotal information. Here is a reference regarding jet engine turbine blades: https://www.ge.com/news/report... [ge.com]

              • Yes, printed in an enclosure, under very controlled conditions. And then likely tempered to reduce residual stress. My question is on printing an entire bridge that way; can you actually scale up those controlled conditions to that size?

                It's similar to the USSR making titanium-hulled submarines. They apparently had crews working in spacesuits in an entire warehouse full of inert atmosphere [nationalinterest.org].

                • Yes, printed in an enclosure,
                  under very controlled conditions.
                  And then likely tempered to reduce residual stress.

                  Of course.

                  My question is on printing an entire bridge that way;
                  can you actually scale up those controlled conditions to that size?

                  Apparently. That's the whole point.

                  It's similar to the USSR making titanium-hulled submarines.
                  They apparently had crews working in spacesuits in an
                  entire warehouse full of inert atmosphere .

                  Did you expect it to be done in somebody's garage?

      • The steel “sponge” matricies are indeed much more structurally efficient than traditional machined parts.

        I can see the model working sufficiently well for a pedestrian bridge, but I have a lot of trouble understanding how it would be reliable for a multi-lane vehicle bridge even with a digital twin.

  • by couchslug ( 175151 ) on Wednesday August 25, 2021 @11:20PM (#61731009)

    It's a nifty concept demonstrator but economically rolling, fabbing, welding and bolting steel is fast, easy, and the structures are easily repaired using either standard or easily fabricated sections produced anywhere convenient with basic equipment (plasma cutters, subarc welding machines etc etc).

    3D printing structural elements for new production is where that tech is headed, and like all such complex structures repair may cost more than replacement. For example being a single piece one may not simply remove defective sections fabbed from standard beam and sheet then replace them. Instead each repair section will require much more complex custom fabrication not practical onsite (at least for a very long time).

    Its a great idea for its real purpose but clickbait had to throw in "infrastructure repair" to get views. We can already cheaply fab bridges of any size. The problem is paying for them at all, not needing exotic production techniques more expensive than rolling mills. Printing is not rolling or forging and if you don't know why that matters for structures and components, do some reading.

    • by thegarbz ( 1787294 ) on Thursday August 26, 2021 @04:53AM (#61731325)

      Its a great idea for its real purpose

      People forget that the real purpose of this bridge is to research into 3D printing as a production technique. There's a reason why some 30 companies, organisations and research institutions were involved in building this bridge, and only one of them was an architect.

      The bridge is almost universally hated. The council has had to apologies that this bridge isn't accessible as the one it replaced, and many people are of the opinion it just doesn't at all fit its surroundings.

      It's not a good bridge. It is however a good research project.

    • by zmooc ( 33175 )

      *by humans*

      While obviously no such robots are available today, a welding robot could easily repair such constructions in the future.

    • There's absolutely no reason you can't 3D print something in modular, easily replaced sections that get assembled like a plastic model kit. But in this case they're studying the long-term degradation characteristics of something of a size that might make sense as a modular piece of a "real" structure.

      If cost-effectiveness is your only concern, then sure, a simple rectilinear assembly of mass-produced I-beams is hands down the best option. But taking that as your only consideration you'd wear nothing but b

    • by BranMan ( 29917 )

      "We can already cheaply fab bridges of any size" - well, sort of. I'm wondering if this concept can actually help with some of the bottlenecks of conventional building practices.

      Consider: Overpass failed in Andover, MA quite a while ago. Since it was unexpected, it was added to the existing backlog of steel production - with the result that temporary bridging was in place for *over 10 years* while they waited for the steel beams necessary to replace it to be made.

      10+ YEARS?? Damn, that's a long ass lead t

  • Can you make doing gaudi like architectures more common? it looks quite awesome

  • Actually 3-D printed (Score:3, Interesting)

    by Iamthecheese ( 1264298 ) on Thursday August 26, 2021 @01:24AM (#61731117)
    Before checking I was confident this would be another "3D printed" thing that actually just had a printed part or two, or was constructed in the traditional way but they basically lied about the printed part. Turns out the span was actually printed in one piece. This actually does represent progress, and probably makes for a stronger structure since there are no worries about welds, mating points, or energy transfer between different parts. So it's great to see an honest headline that has that phrase.

    But the real progress will be when we 3D print in place. Not "on site" but actually in the final location the object or building is supposed to end up. This will do away with an enormous amount of expense and complexity. I doubt our corrupt governments will allow that any time soon (see also the enormous difficulty required to get certified for habitation literally any non traditionally built building) but a man can wish.
    • by robi5 ( 1261542 )

      > stronger structure since there are no worries about welds

      It looks like one single weld and nothing else

  • by iamnotx0r ( 7683968 ) on Thursday August 26, 2021 @01:50AM (#61731133)
  • It probably only cost 10x as much (in money and energy) as a similar bridge cut from lengths of girder. Probably likely to corrode faster too thanks to the surface, internal hollows and complex geometry.
  • Writer needs help (Score:4, Informative)

    by kqc7011 ( 525426 ) on Thursday August 26, 2021 @06:46AM (#61731543)
    The author of this article lost me at "welding torches", there is very little (if any) production welding done with torches. Robotic welding done with wire feed, most definitely, Robotic metal cutting done with gas or plasma, yes. Robotic welding with a torch, not so much.
  • Contrast that with say the Fort Worth bridge which is almost 2000 feet long and holds up cars/trucks and must have a life of at least 50 years. The Ft Worth bridge was built next to the old bridge and then took around 4 months to remove the old bridge and put the new bridge in place. I'd say that approach is probably a better fit to replacing many of the crumbling bridges in the US. Perhaps the tech has promise, but at this stage in the game, it is an experiment. I'm sure one of the things they are testing

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