Space Age Metal: New Titanium Alloys Near 'Magic' Strength Threshold

Space.com ^ | 22 April 2003 | Robert Roy Britt

[strategofr]

Every time an astronaut gets off the ground, he or she owes a debt to the Wright brothers, not just because the boys dared to fly, but because they were smart enough to use a newfangled aluminum alloy to lighten the load of their engine and make flight possible.

The art and science of creating new, lighter and stronger metal alloys has progressed remarkably in the intervening 100 years. But many scientists now envision a looming limit to this progress owing to a mature science that will now make only incremental gains.

Then along comes Takashi Saito, a Japanese researcher who appears to have shattered the glass ceiling on metal-alloy development limitations.

Saito, of the Toyota Central Research and Development Laboratories, and his colleagues have jettisoned the traditional art approach to alloy development -- the trial and error used at Kitty Hawk and everywhere since -- and turned to pure science, specifically quantum mechanics and high-powered computer computation, to create new mixtures of metal which, one outside scientist says, have spectacular properties of strength and flexibility.

In the April 17 issue of the journal Science, Saito's team writes that their titanium-based alloys exhibit "super" properties, such as ultrahigh strength and super elasticity. The new materials could prove useful for spaceflight, where precision operations are conducted in ruthless conditions.

The alloys approach "magic" upper property limits that previous methods could not attain, the scientists say.

Alloys of myriad mixings are used in various parts on satellites, deep space probes and the shuttle fleet. The new alloys could be particularly suitable for ultralightweight springs, as one example, or other "precision instruments for use in rugged environments such as in outer space," the researchers report.

To develop an alloy, researchers add one ore more so-called solute elements to a metallic solvent, such as aluminum or titanium, explains Gary Shiflet, who wrote an analysis of the new results for the journal. But there is a practically infinite number of possible atomic combinations that, in the end, result in wildly differing structural properties.

Saito's group has made "major advances in specific material properties that would be exceedingly difficult to achieve by trial and error," says Shiflet, who works in materials science and engineering at the University of Virginia.

The result, Shiflet says, is an alloy with "spectacular properties" and the promise of materials that "may have the strength to carry a load and be able to perform another distinctive capacity, such as sensing damage and perhaps even repairing themselves."

Shiflet said the discovery, and the computer work that drove it, are incentives for other researchers to concoct new metal mixtures.

[AmericaUnited]

Bolt-on weights would be easily removable, so maybe you could take them off, tip the car up on it's side, and work on it that way?

Why not water? Water in special compartments?

[John Jamieson]

I believe it's still true that the Moller Skycar has never flown.

For the last 5 years or so that first flight was only months away.

Moller will however sell you their prototype for only $3.5 million.

PS. I did a few rough calculations: 1000Hp, 350 mph, .5 pounds/hp hr. Figure 83 gallons per hour, about 4mpg.

It doesn't matter, it will never fly.

[Bon mots]

Isn't that just sapphire?

Sapphire is Al₂O₃, as is Alumina.

[Fresh Wind]

Ah, so. Someone has finally figured out what the gray's are using to build their flying saucers.

[grjr21]

I'm placing my order for a # 2 General Product's hull today !

[finnigan2]

"Titanium would be excellent in SUVs. Strong, light, and capable of maintaining structural integrity at Mach 2+."

- I remember when the US Air Force was building it's Mach 2+ fighter jets out of titanium at enormous cost because they had been sold on the story that such a super fighter needed a lightweight alternative to aluminum. When the Soviet Union collapsed they had a chance to get their hands on the latest Russian fighter which could outperform it's U.S. counterpart and lo and behold, it was made out cheap, plain old aluminum. Somebody in the US titanium mining/production business had been laughing all the way to the bank for years at the taxpayers expense.

[R. Scott]

And motorists... among them some Freepers... will still flip us the bird for having the gall to ride on THEIR roads.

I don’t mind sharing the road with polite bicyclists – but when in a 35, 45 or even 55 mph speed zone and two or more bicyclists are riding side by side holding up traffic and causing a hazard I tend to get a bit touchy about being forced to drive at 10 or 15 mph. 2nd gear is really hard on gas mileage.

[R. Scott]

I wouldn't want to ride it across a bridge.

[finnigan2]

"Rockwell hardness scale rating."

- I hear they've had to revise the Rockwell Scale upwards after measuring the hardness of Slick's erection while being introduced to certain Hollywood starlets.
Japanese scientists have been studying it's secret in the hopes of duplicating it's ultra super titanium like properties.
There is no truth to the rumor that the new material has been tentatively named "dorktanium" in honor of it's original inspirer.

[R. Scott]

AH! But if you drink about 20 cases of diet soda a day (can’t remember the exact figure) every day, you might get cancer!

[R. Scott]

Accidental discoveries – like LSD as a better aspirin?

[ryan71]

MSGT,

You may not be an engineer, but you have a better knack for it than most engineers I've worked with.

I think you're exactly right. Nice ideas.

[reg45]

VX , I assume you mean the nerve gas, is an organo-phosphate.

[Irish_Thatcherite]

Saito, of the Toyota Central Research and Development Laboratories

Does that mean Toyota will be 'strongest built cars on the road'?

[Tijeras_Slim]

Great, now you can get rid of your 329, 'cause the new version will only be 5 ounces!

[clodkicker]

Or be blown over byy a wind gust

[AndyJackson]

The bike paths here are used by cyclists... but they go nowhere, end abruptly in unsafe spots, are strewn with debris and have trees and mailboxes hanging into traffic. Fer sakes.

I also ride a bike a lot. For every jerk in a car, I have found about 100 jerks on bikes. They are even jerks to other bicyclists. The bike paths I am referring to are separate from the road about 40 ft into a park. They run parallel to the road and go the same place the road does. Still we get a large number of in your face I am going to ride my bike on the road even if it kills both of us folks all the time. Me, I ride my bike on the bike path. It is a whole lot safer and more pleasant.

My first intro to the jerk on a bicycle mentality was in Berkeley, which I think still has the highest concentration. Riding a bicycle the wrong way down the middle of a 5 lane one-way street is to me the height of arrogance. The road running the other direction was one block over.

[strategofr]

"lighter planes and rockets... stronger lighter armor plating"

Those seem like the most likely to have a big impact. In addition, perhaps troops could wear metal flack jackets.

[strategofr]

"Smart@ss that I was (and probably still am, come to think of it) I said "oh, yeah?""

LOL!

"Still haven't made it thorough Trig, though."

That's the one I hated the most. I took 1st year calculus 3 times---once in high school and twice in college. That was the end of my math quest.

I did have one amazing experience with math, though. As a college freshman, I had to interview an adviser to try to get into "honors calculus." By chance, the person I was interviewing was the teacher of "super honors calculus". This consists of one freshman class (about 30 students)out of all the freshman in the University of Michigan.

This guy concluded that I was smart (which was true) and also concluded that I could do math at a very high level (which turned out not to be true). So, I spent the first half of the first semester of my freshman year trying to solve problems such as: Prove that 1 + 1 = 2. After half a semester, I had failed to solve a single homework problem. I dropped the course.

[Old Student]

I made the mistake of trying to take College Algebra and Trig at the same time. I got a B in Algebra, (after 15 semester hours of remedial math classes) but at the 10-week point, I was finally getting the stuff from the first 5 weeks of the trig class. I got a 34% on the final exam, and that was one of my higher grades...

I'll take trig again, some day, but not when I'm taking ANYTHING else.