4. Aluminum and Steel. These materials, in new formulations, will start showing up more in cars and even aircraft. In New BMW Line Features Aluminum, CFRP, we learn that BMW will include both aluminum and carbon FRPs in the new BMW i line of electric vehicles (EVs) for city driving. To cancel out the added weight of an EV's batteries, manufacturers have pushed back on materials makers to come up with strong and lightweight substances. The new line will kick off with a plug-in hybrid and a 100 percent electric-only model. Both have aluminum powertrains and a passenger cell made of carbon FRPs similar to those used in Boeing's 787 Dreamliner.
BMW will include both aluminum and carbon FRPs in the new BMW i line of electric vehicles (EVs) designed for city driving. Shown here is the BMW i8 concept car.
5. Plastics Recycling. Standards can help or hamper an industry, depending on how they are written, who writes them, who has to implement them, and how tough they are to put in place. Sometimes they do both. RoHS is a painful reminder of this truth. We're better off with it, but the transition was excruciating and produced several missteps. Biodegradable Plastics Standard to Bust Landfill Waste describes an effort to find a usable standard for gauging how fast certain plastics biodegrade under certain circumstances. Looks like it should hurt a lot less than RoHS.
Thanks for the info, Dave. Perhaps that's something you could tackle in a future blog post, how the variety of metals is still robust in the face of all the activity in plastics and composites, and how one shouldn't necessarily get seduced by the latest, but rather determine the right material (both appropriateness for app on a techical basis and cost) for the job.
@Ann: I guess I'm still not sure what you mean about there not being as much variation in steel products as plastics or composites. There is an entire universe of steels. Companies like QuesTek are expanding this universe. (That's something you could definitely write an article about).
But I think you're right that us metallurgists often tend to talk exclusively to each other in language that only we understand. This might explain why you have a hard time finding general information in a Google search.
Thanks for your feedback, Dave, but you apparently misunderstood what I said. I wasn't talking about microstructures or what can be seen under a microscope, so much as products. And I wasn't talking about receiving announcements so much as what can be found by broad, general level searches on Google, for\ instance. The number of announcements regarding composites and possible composites has simply been huge. And that's not been the case for metals. I already have the ASM link, thanks, but please feel free to send more. I'm always looking for new sources.
@Ann: I think you're deeply mistaken about the amount of variety in metals. Some people think steel is "just steel" and aluminum is "just aluminum." Nothing could be further from the truth. The wide variety of microstructures and resulting properties which can be obtained from steel by alloying, heat treatment, and mechanical processing help to explain why it has formed the basis for technological civilization for literally thousands of years.
I'm not sure that anyone can fully appreciate the tremendous diversity of metal microstructures without looking at them under a microscope. If you don't have a microscope handy, this website is a good start. But it's really just the tip of the iceberg.
And if you're not getting announcements about advances in metals, maybe you're not looking in the right places. ASM's Materials News Wire is a good place to look.
I think you're right on the worthiness of the argument, Rob. There have been a ton of announcements and breakthroughs in composites since I started this beat, yet I've seen few on metals. One reason is no doubt because there are zillions of ways of making and even designing composites, as well as many materials to combine, whereas the number of metals and how they can be modified are more limited.
Agreed, Ann. The steel industry is particularly engaged in telling its story. As steel customers begin to consider lighter, stronger, and more environmentally friendly materials, the steel industry is screaming, "We can be lighter and stronger, and we're already environmentally friendly." It's a worthy cry.
I kind of liked Rob's purple prose regarding metals, and since he meant the industry itself, not the materials, I tend to agree with him. A long-term incumbent, whether an individual or a group or an industry, tends to get blinders about its importance and standing, and then is surprised when things start changing. This is just human nature. It's also the nature of technological and market changes.
I'm getting the same impression. I've been following where the news leads me, and the materials announcements just in the last three months on this beat have been spectacular and mind-blowing. I think you've accurately identified the three areas that seem to be undergoing the most change and the most innovation. I would never have guessed when I started that there's so much going on, and can hardly wait to find out what's next.
Yes, perhaps my word choice was a bit excessive. But those industries have already gone to work to argue their relative strength as environmentally friendly materials. The arguement is that they produce less carbon than composites as they are produced, and that they are far easier to recycle.
@Rob: To say that steel and aluminum are "fighting for their lives" is a poor choice of words. I don't think anyone is under the impression that steel and aluminum are going away anytime soon. They simply provide a combination of properties (high strength, high toughness, low cost, etc.) which is extremely difficult to beat. And when it comes to being environmentally friendly, a very strong case can be made that steel and aluminum outperform plastics or composites.
From home enthusiasts to workers on the manufacturing floor, everyone's imagination is captured by the potential of 3D printing. Prototyping, spare parts creation, art delivery, human organ creation, and even mass product production are all being targeted as current and potential uses for the technology.
ABI Research, a firm based in the UK that specializes in analyzing global connectivity and other emerging technologies, estimates there will be 40.9 billion active wirelessly interconnected “things” by 2020. The driving force is the usual suspect: the Internet of Things.
Just in time for Earth Day, chemicals leader Bayer MaterialScience reported from the UTECH Europe 2015 polyurethane show on programs and applications using its materials to help reduce energy usage. The company also gave an update on its CO2-based PU as that eco-friendly material comes closer to production.
Solar and wind energy are becoming more viable as a source of energy on the electric grid. For decades, the major drawback to solar and wind was that they’re temperamental. A cloudy day kills solar and a still day renders the wind turbines useless. Automation tools, however, are providing a path to help these renewables become practical.
In honor of Earth Day, the National Security Agency has launched the STEM Recycling Challenge in Maryland schools to encourage kids to think about where the garbage they throw out every day actually goes. The agency has also introduced “Dunk,” a muscular blue cartoon recycling bin wearing shorts and sneakers.
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