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The Sexiest Metal
jonerik writes "Denver's weekly Westword magazine has this article on titanium and the attempts to break it out of its traditional aerospace/defense industry niche, including its growing use in architecture, computers, jewelry, sports, knives, cars, medicine, and other areas. The upside: It's as strong as steel but weighs half as much, it doesn't rust, and it's fairly plentiful. The downside: It's expensive compared to steel and aluminum and its high melting point makes it difficult to work with under some conditions. Still, it's nice to see it being used in other applications." Heck, I know someone who used it as his wedding ring. Pretty cool, actually.
My wife and I got married back on March 24, and we are both wearing excellent titanium rings from www.boonerings.com.
My ring is styled after Ed Harris's ring from The Abyss, and my wife has a pair of helix rings, one that holds a diamond through tension in a spectacular manner not possible with softer metals.
See: http://www.boonerings.com/large/helixxlite.htm
In regards to safety, Titanium rings can be easilly removed using cutting tools present in most ERs.
The newer TiBooks are reinforced in order to prevent this bending problem. The first few runs of them (including my own) flop around to a dangerous degree unless you make sure to pick them up with both hands. If a CD or DVD's in its drive, you can hear it getting scuffed up by the drive hardware when it bends! Apple's "designer" computers have a history of problems in the first run (heat fissures in the plastic moulding of the G4 cubes come to mind). Be glad you weren't an early adopter :)
"The problem with the French is that they don't have a word for 'entrepeneur'." -George W. Bush
For most applications it is Titanium 6-4, very hard and very tough:
- 6% aluminum
- 4% vanadium
- 90% titanium
For bicycle frames, Titanium 3-2.5 is used as it is more ductile (for forming seamless tubes) and has a better stiffness in torsion (which is needed as pushing on one peddle then the other torques the frame back and forth):
- 3% aluminum
- 2.5% vanadium
- 94.5% pure titanium
It took an injury to my left hand with a circular saw -- and a nurse who pulled the ring off while I was unconscious -- so that they could put about 10 stitches in that finger (not counting the 70 or so inside and out on my index and middle fingers) to convince me that Ti Wedding rings are *NOT* a good idea.
...Open Source isn't the only answer -- but it's almost always a better value than the alternatives...
Check out the movies. Now THAT'S sexy!
;-)
Some more Titanium info, but this site is just way sexy. Check out the Flash Periodic Table on it.
Remember this post? "The Periodic Table of Comic Book Elements" from 2 days ago. The main site seems to have been fatally slashdotted, but here's Titanium on a mirror. Not so sexy, but timely.
intellectual property law is philosophically incoherent. it is your moral duty to ignore it or sabotage it
Puts materials scientist hat on
The TiBook is made from commertially-pure (CP) Titanium. This is basically an unalloyed grade and is very weak relative to the better 6-4 (6%Al-4%V) "aircraft grade" Titanium alloys.
This is the thing. Apple chose Titanium more because it was sexy than anything else. You see a lot of things advertised as "Titanium", and often times the Titanium plays no important role in the product. There are some golf balls out there that has some Titanium in one of the resins close to the core, but the Ti is not in metal form, and is really only there in minute quantities.
In fact, sometimes titanium overshadows everything else there. One of the responses mentions "Titanium" glasses frames that are very flexible. Those are not pure titanium. They are a 50-50 alloy of Titanium and Nickel. It is a "shape-memory alloy" which has the ability to deform easily by realigning the crystal structure when bent! and then shifting the crystal structure back when the stress is removed. They are way cooler than just titanium. They have been precision engineered to be superelastic.
Titanium may be sexy, but it is not always the whole story. The marketing people often latch on to it, but as it becomes more common (and it will), it will start to lose it's allure. A large part of the cost of titanium is in refining it from the ore, and I've heard about a few developments that might bring it closer to the cost of aluminum in that respect.
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The internet is the greatest source of biased information in the history of mankind.
I've had two titanium watches....
The first was a Wittnauer (I don't think they make it anymore). It was unfinished titanium, and got a lot of scratches during the year and a half that I wore it (it has a 10-year pacemaker battery!)
The second one is a ventura v-matic watch, and it's had the honor of being on my wrist for 3 years. Usually I get bored of watches, or they get scratched, so that's quite a feat! This watch has a special nitrogen coating that seems unique to ventura (I'd love to see it on non-watch products). The surface has been hardened to the hardness of saphire. Saphire is just below diamond on the hardness scale, and, yes, it scratchs glass. The watch is absolutely scratchless. It has a small ding (.5mm dia) that occured in a hangglider emergency landing (although "survived a plane crash" sounds much sexier!). But, the ding is exactly that - not a scratch. Since only the surface is hardend, the material is still soft underneath and can be dented.
Although the watch is big (pure mechanical, automatic winder), it's still light. As an engineer, I love the see-through back!! Check out the 3d viewer of it.
It's a bit spendy, but most of the price is the mechanicals inside. Ok, a good chunk (1/5-2/3) is to the retailer, but most of the manufacturing cost is probably labor.
HIV Crosses Species Barrier... into Muppets
Kitchen sinks, stoves, refrigerator, bath tubs, many have a porcelain coating and rutile is the whiteness in the coating. Even your green stove has a white rutile base prior to adding green pigment.
That being said, I agree that structurally, it would have been better to use steel or alluminum for the case of the PowerBook. However I own a powerBook, and, although flexible, I prefer it's titanium, although polished aluminum would be cool too.
The coolest thing about titanium, that often get's looked over is its resiliancy. It makes it ideal for applications where steel and aluminum are useless. Look at bicycle frames, for example. Steel frames have been around for years and they have been optimized to be ultralight, strong, yet flexible enough for a comfortable ride. Aluminum came along, and although lighter than steel, it made for a rigid stiff frame and a toothshattering bike ride. The *design* of the aluminum frames could have been altered to allow for more resiliency, but the problem with aluminum is it fatigues and breaks if it flexes to much, so redesigning the frame to be more flexible was out of the question. Fortuneatly, suspension bicycles need a high stiffness in order to keep hinges/shocks/etc. lined up straight, so aluminum is ideal for this purpose.
Titanium, although not as strong as steel and not as light as aluminum, offers resilience. The first Ti mountain bike frames were awful, built similar to their steel counterparts, and compared to riding a wet-noodle rather than a bicycle. Over the years, the design of Ti bikes has caught so that the frames are resilient in all of the right places, while still remaining sturdy in the other places. Some frames have even used this resilience as the suspension and put a damper/shock into the frame to allow for suspension travel and damping in a metal frame with NO hinges.