Possible dumb question.
Is there any heat treatments, cryogenic treatments, or coatings that can enhance the strength of the stock crank?
I suppose if there is, it may cost about the same as an imported forged crank.
I hate buying & using Chinese products!
There are no dumb questions. So
NEVER think that, or let that get in your head and prevent you from asking a question and learning something new. If you are ever concerned about what it may look like on the forum, please shoot me a PM and if I cannot answer the question, I will point you in the direction of someone that can...but it is frustrating the amount of customers that I've had in the short time I've been in business that tell me that they're afraid to post questions on the board for fear of getting flamed/yelled at/made fun of....that is total bullshit that they should have to worry about stuff like that...this place didn't used to be like that...
Anyway, to answer your question- yes, there are ways to enhance the strength of a stock crank.
There are heat treating facilities all over the USA that could heat treat the stock crank and add
some strength to it, but when you factor the cost to ship your crank there and back, plus the heat treating cost, you are basically at the price of an affordable forged crank, so it is a bit of a moot point. BUT, there are ways to make it stronger.
Now, I do not know the specific heat treating processes that you would have to get done. That is something you would have to talk to Fabro Cater about.
On a related note- you can also take a crank that has been cut to 30/30 or 20/20 and make it just as strong as it was when it was new. I'm sure if you ask most people they wouldn't be able to tell you why a 30/30 crank is no good, besides it has been cut down.. Well when a crank is originally heat treated, only the top layers of the crank receive this heat treating, otherwise the whole crank would become brittle. So only the top, let's say, .060 or so receives the heat treating.
So when you cut a crank to 30/30 you are effectively cutting in half the heat treating, which is where the strength comes from...so you just cut the strength in half, basically.
If you were to send that crank off to get heat treated, the crank would have the same strength as it did originally (assuming of course the heat treatment was done to all the same specs as stock) and you would have a 30/30 crank with just as much strength as an un-cut crank.
This was what I was driving at asking the question can the crank be reconditioned to the "zero time" state. Probably not a big market, if any, for this kind of service. The other piece would be detecting defects/inclusions. If I am not mistaken, magnaflux will only find defects that extend to the surface. To find casting defects below the surface x-ray or maybe ultrasonic inspection would have to be used. That's probably the biggest drawback to the casting. It would be good to be able to reuse the stock crank, but not if it cannot be reasonably evaluated/reconditioned.
Thanks to everyone for the feedback so far.
Yes, it is possible. Please see my response above.
Why would you even think about reusing 30 year old crank technology? The modern day cranks have current metallurgy vs 30 year old metallurgy. Sounds like you're looking for a reason to use a OEM crank.
I was speaking with Tom Lieb (owner) of Scat at PRI, says that he buys metal from the US and ships it to China for the cranks as the Chinese metal is not as good as US. He has the cranks made in China and ships them back to the US to be finished. He lives 6 months in China and 6 months in the US.
This past PRI, Eagle had a Buick V6 3.625 stroker crank on display.
Like what Nick stated, your block will thank you by having a less flexing crank.
Like the saying goes...."spend once, cry once"
Billy T.
gnxtc2@aol.com
I'm glad you made that comment about SCAT. When I spoke with Tom (on the phone, I wasn't at PRI) he really emphasized SCAT's heat treating processes for their billet cranks, and where they source their metals from.
I don't know if people think all metal is the same, but it isn't. In fact the best steel is actually from Japan-i forget the name of the city- but that is where you will see things like the world's top chefs have their knives made from, or uber-high-end cutlery/blades/etc.
Being as that metal costs a lot, and isn't fiscally viable for usage in a large scale marketplace like aftermarket crankshafts, SCAT went to the next best option-USA steel.
There is a reason why certain Chinese cranks cost $400 and why others cost $700. A Chinese crank isn't always a "Chinese" crank. You need to ask yourself- Who designed the crankshaft? What were their qualifications? Where was the steel sourced from? What heat treating processes do they use (and how many) on this crank? What are the production tolerances that they adhere to?
I could have a connecting rod made from 1 Chinese manufacturer and it is made to a .05" tolerance (you would be shocked to find out that there are Buick vendors that use connecting rods that are produced to this tolerance....) and another Chinese manufacturer that produces connecting rods made to .00003" tolerances. Quite the difference in quality, wouldn't you agree? I am giving you this example to show that just because something is Chinese doesn't mean it "Chinese" as some people have come to interpret it.
I don't have a problem replacing the crank when it is time for a rebuild, just looking to confirm it makes sense for my intended purpose. I don't want to chuck a good part, if it is still good and can perform its intended purpose. I appreciate what you posted about Scat, because I prefer to spend my money on US made products. I'm not a zealot over it, because it is getting to be impossible, but being made in the USA is always a factor, and it looks like Scat has a mostly made in the USA product which is a plus in today's world.
The intended use would be a street car, that probably sees 50 or so 1/4 mile passes a year. My guess on HP would be in the 550 range at the crank max. I don't think I am going to add a role bar, and I don't plan to start racing. I mainly like to tinker and run the car at test and tune.
Using a rough guideline of what Pacecarta and Scooby posted, a good condition stock crank can handle that power for what seems like quite a while. Part of that equation though is being able to tell what a good stock crank is, and it is a gamble to some degree. I've seen the posts where others have really pushed the stock parts, and my guess is more have grenaded the stock stuff and you don't always hear about it.
I actually like doing the investigation part like I am doing now, and appreciate people chiming in with their experience.
I think Scoobydoo and Pacecarta are trying to emphasize the point that just because the stock crank
could, in theory, handle the power, by the time you get it heat treated/micropolished/whatever you would like to do to add strength to it, that the cost-benefit ratio is simply not there. The cost for a brand new forged crank would be not much more money, and it would provide
so much more piece of mind. The cost of your rotating assembly and risking it being thrown apart by a stock crank just giving up at 30+yrs of operation just isn't worth the risk. As you have seen in this thread, stock cranks
can hold high HP for some time, but they'll blow up (but there have been lucky people who have never had that happen to them-but are you going to take the chance that you're one of the FEW lucky people?), or they blow at much much lower levels...you just
never know.
I hope some of this helped answer your questions. If you are looking for a crankshaft, we did just have a Christmas Day special of $510 for a brand new SCAT crank. Although the sale is over, I will extend the offer to you if it would help you keep your build within your budget (since I am assuming this build is budget-minded, hence why you are inquiring about reusing the stock crank?) and still provide you with a quality piece for your engine.
