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Reconditioning titanium rods
I'm looking for a place that specializes in reconditioning titanium rods as I have a used set of pankl titanium rods that I want to send out. Does anyone know of a shop that does this?
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09-01-2017, 08:39 PM
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Join Date: Apr 2016
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Any normal auto machine shop can do this.
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09-01-2017, 08:59 PM
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I think it is more of a specialty with respect to the rehardening of titanium parts with the brief research that I did.. The shot penning process for these tit rods may be different.
If anybody has reconditioned Pankl or vintage 935 rods, would be interested who you used. |
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09-02-2017, 07:58 AM
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Functionista
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Ask Pankl?
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Jeff 74 911, #3 I do not disbelieve in anything. I start from the premise that everything is true until proved false. Everything is possible. |
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09-02-2017, 08:06 AM
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What I meant was any auto machine shop that does PORSCHE can handle this job. Try Walt Watson, Competition Engineering.
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09-02-2017, 08:47 AM
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Pankl is a good idea.
I used Walt at CE for my last engine machine work but some parts (e.g. Reconditioning forged rockers) need a specialty shop. I think reconditioning used titanium parts may fit in that category but could be wrong. I'll ask Pankl, Crower and other Porsche machine shops and see what they say. If any of you have experience with reconditioning titanium rods that have been timed out, let me know. |
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09-02-2017, 03:11 PM
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Did you ask Walt? I think you will be surprised at the answer.
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09-02-2017, 05:46 PM
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Depends what Rod you have. If they are early 935/962 they use a titanium bolt, washer and nut. I would hate to know what those bolts cost today. The last time we recon'ed a set of these I think the bolts were over $ 130.00 ea. Pin bushings are unavailable and will have to be made.
If the rods are late GT3 then they use a bolt only but this is special also. They are not cheap either. Bushings are available if you use Aluminum Nickel. Be careful as some production shops will cut corners and you may end up with 6 rods of different lengths and piston deck heights all over the place. The rods have to be handled with care at all times. It would be good to know the time on them if possible. Make sure they are checked for straightness as older used rods are known to bend. |
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09-02-2017, 06:28 PM
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I agree with you Neil.
I have late GT3 rods that have about 25!hour of racing or more on them. I am looking to make them as reliable as possible so looking to take them to the right place. |
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09-02-2017, 10:06 PM
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I am not sure what you mean by re-hardening Titanium ?
6AL4V which is the most common material used for Ti Rods is most likely used in an annealed condition. To Re-anneal would involve temperature of around 785 degC and this would almost certainly cause some distortion and processing in this manner would IMHO be a mistake. A 'Time Expired' rod could have it's fatigue life extended by shot peening if the process is carried out correctly but to assume you can peen these rods using either the same media or the same Almen Levels as 4340 Rods may also be a mistake. There is a huge amount of published data on the influence of shot peening on the fatigue life of 6AL4V and there are many conflicting results. In general terms when Ti is media blasted 'dry' there is always an explosion risk and whilst the use of a stainless steel media and carefully controlled conditions should eliminate this risk a basic knowledge is required. More recently Ti is being peened using a Ceramic Media and 'wet' conditions. The manner in which a 200% coverage of the surface, which is a typical requirement., is obtained can also be important. If the treatment is carried out incorrectly then fatigue life can be reduced rather than enhanced. I would suggest that the best approach is to find a contractor with experience of these materials and that has documented procedures backed up by fatigue testing. The Metal Improvements Company in the UK certainly has this capability and they have a methodology that, I believe, is FAA/CAA Approved. They are now part of the Curtiss-Wright Surface Technologies Group and their Headquarters in the USA is in Paramus NJ. We have treated 'old' GT3 Rods successfully in the UK but generally only use them in 2.0 litre engines. Last edited by chris_seven; 09-02-2017 at 11:07 PM.. |
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09-02-2017, 11:04 PM
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In other words, Chris is saying to send them to the scrap pile. 😂
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09-03-2017, 06:55 AM
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Quote:
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09-03-2017, 07:06 AM
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Thank you Chris. That is the information I was looking for. I thought it might be a specialized process to shot peen these rods.
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09-03-2017, 08:13 AM
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The first thing you need to ascertain is if the big end needs to be resized. It can be that at 25hrs just the gudgeon pin bushing need to be delt with.
regards |
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09-03-2017, 06:05 PM
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We have done several sets of GT-3 Pankl rods and the small ends are usually good, given the relatively low hours these are typically taken out of service.
Big ends, however need to be resized with all new fasteners.
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09-03-2017, 11:42 PM
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Why do people think it is safe to re-use the GT3 rods when they have reached the end of their service life? Is there a body of experience to suggest that they are removed too soon?
1. Hours are not a very good indicator of fatigue life, unless it is hours of defined usage (25 hours on a couple of specific tracks). Otherwise, it is time for Rainflow counting and the Palmgrin-Miner rule, which requires more data collection than just the four over-rev ranges. 2. The large load reversals cause most of the damage. That is why there are the four over-rev ranges counted in the vehicle. Staying below those lofty RPMs causes MUCH less fatigue damage. 3. Re-annealing and/or shot peening does very little to restore fatigue life. It is like putting the smoke detector in after the house has burned down. 4. Re-sizing takes away material from the rod cap, making it even thinner. Is that safe on a highly weight optimized rod like the GT3? The thing with the GT3 rod is that, because it is a high reving stroker, it needed bigger bolts, but there was no way to make the big end larger to accommodate them. No room relative to the case. That being the case, if you are building something less that 3.4 liters, I wonder if you would be better off with a custom titanium rod, even if it is cut from annealed plate, rather than forged. It will have a much more reasonable fatigue life, due to more material in the right places, of course with a weight penalty. |
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09-04-2017, 10:33 AM
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There is a lot of emphasis placed upon the need and use of titanium in engines. There is even more put into the fear of titanium. Most is all part of the mythology that has been place against the use of this material.
Yes it has to be respected and handled carefully and everything said so far is correct, but it is not as fragile as most make it out to be. We service some 962/962C engines that have rebuilt rods many times over still giving good service. Sure these engines are not pushed as hard as they were back when raced professionally, but so far we have not had one failure. Lately, GT3 rods are becoming more common to use. Unless we see some obvious damage, we rebuild these and do not allow fear to be the only determining factor if they should be used. |
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09-04-2017, 11:31 AM
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Neil,
In the early days of the production of Alpha-Beta Titanium Alloys there was significant variability in the fatigue behaviour of alloys such a 6AL4V. When I was doing my Post-Doc work we used to fatigue test and qualify these materials, on a cast-by-cast basis, for the Uk's 'Under-Water Weapons Research Establishment' with materials made in Birmingham by IMI and used in the manufacture of some quite advanced Torpedos. Some batches were good but others could be quite poor. In modern terms most manufacturers now quote K threshold stress intensity factors that should effectively allow a rod to be designed for 'Infinite Life'. Manufacturing inconsistencies have also been virtually eliminated. I would agree that only a lack of detailed testing results cause the continuing 'fear factor' to be maintained. Last edited by chris_seven; 09-04-2017 at 12:01 PM.. |
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09-04-2017, 11:58 AM
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Chris,
Well said. nh |
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09-04-2017, 12:31 PM
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Ingenieur
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This was more of a question directed to Steve Weiner and the specific case of timed out GT3 rod reuse. The question is: "Has that been 100 percent successful?"
There is no question that Ti is a suitable material for rods. Both the older 935 rods and the current Corvette rods have no defined service life, but when a pretty reputable OEM says that their GT3 rod has a very limited life, I am wondering why people think it is OK to ignore that. Is it too conservative, or just a case of no data/small sample size? Also just FYI, the material variability in just about any Ti alloy is much more tightly controlled by plasma arc vacumn remelting nowadays. |
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09-05-2017, 05:26 AM
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