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Shop Friday
Gravity is silent. The stately tick-tock of the pendulum clock is the
only sound in the shop, the lathes and mills lurking beneath their shrouds as I try to reason with Mr. Ohaus. Unlike the clock, which is made of wood, Mr. Ohaus is a man of metal but both are powered by gravity. A spate of rain sweeps over us, loud on the metal roof out behind the shop and for a moment I hope it will somehow change Mr. Ohaus' mind but he is stubbornly insistent: the connecting rod weighs 605.9 grams. Deep sigh. I take the rod out back where the narrow belt of the polishing sander whisks away another film of metal, first on one side, then the other. Then follows a careful cleaning and back to the scale: 605.7, less a tad. I repeat the ritual as more rain blows in, a regular shower this time. I give the belt-sander two-potatoes less than before, clean the rod, weigh the thing: 605.5, plus a tad. Big Smile. Because 605.5 grams is what I've been chasing for the last half hour, hiking back & forth between the sander - - a 'dirty' tool not allowed to associate with lathes and the like - - and the Ohaus triple-beam balance, trapped in its varnished cedar box over in the corner with other Precision Stuff. A stock VW con-rod is about 5.4" c-t-c. Forged from mild steel, its weight may range from 505 to 550 grams. They are sold in sets graduated by weight with a 10 gram variation across the set of four. But for a good engine you want them to all weigh the same, or close to it. The rods I'm working on today aren't stock. They are 5.6" c-t-c, intended for use on a crankshaft having a throw of 84mm (stock is 69). This is the fourth set of rods I've ordered for this engine. The first three sets had been tampered with, probably by the clerks who shipped them, so that the weight difference across the set of four was as much as 16 grams. Since you can only remove about seven grams from an H-beam rod, it renders them unusable in a properly built engine. Which gets you a massive shrug from the people selling such junk. This particular set of rods was ordered on 15 March from a retailer less than a hundred miles away (G.Serrano in Torrance). After several phone calls the rods finally arrived on 20 April. Fortunately, the set proved usable but even then, the carton had been opened and one of the rods removed from its protective wrapping. Had the set NOT been usable it would probably have taken another month to obtain replacements or a refund, which will help you understand why it has taken FIVE MONTHS and three different retailers to obtain a suitable set of rods for this engine. In one case I was forced to pay a 're- stocking fee' even though the parts were not to spec. Air-cooled Volkswagens are a vanishing breed and most of the remaining retailers simply shrug; take it or leave it, we're only here for the money. (So what to do? Buy your parts from Steve Bennett at Great Plains Aircraft Company. He builds his engines differently from the way I build mine but he's an honest person and you will benefit from obtaining everything from a single source.) - - - - - - - - - - - - - - - - - - - - - - - In the mid-1950's the Ford Motor Company published (in the SAE Journal) the results of a decade-long test comparing the wear of engines fitted with a full-flow oil filtration system to other maintenance strategies, including frequent oil changes, by-pass filtering and so on. Full-flow oil filtration was the hands-down winner, reducing some types of wear by as much as 600%. Which is why all modern engines are equipped with full-flow oil filtration. All of the VW engines I've built since the late 1960's have been fitted with a full-flow oil filtration system. This is accomplished by blocking the normal output of the oil pump and installing a new pump cover having a threaded fitting. The full output of the pump is plumbed to a filter canister then returned to the engine via a threaded fitting installed in the main oil gallery. The VW oil pump can produce up to 300psi and a basic rule of engineering is that the first thing 'seen' by the output of such a pump should be a pressure relief valve, so as to protect the system from excessive pressure. The full-flow installation in the typical VW engine violates this rule since the filter canister is the first thing seen by the pressurized oil. Since the typical oil filter bursts at about 100 psi, starting a VW on a cold morning can be one HELL of a mess. (Yeah, they make high-pressure canisters... which typically cost $10 and up, when you can find them.) In comparison to the connecting rods, finding a suitable oil pump cover is a slam-dunk. I called Dee Berg, widow of Gene, chatted for a few minutes and had a pair of suitable pump covers in my hands about eighteen hours later. (Gene Berg Enterprises is even farther from my shop than the outfit selling the con-rods :-) Gene made his pump covers out of high-density cast iron that wears even better than the stock VW pump cover. He also offered a cover fitted with a ball-type pressure relief valve (GB-239x) that pops-off at about 90 psi that has become the standard for all serious engine builders. It costs significantly more than the bubble-pak'd cast aluminum crap but it's money well spent. Not only will you recover the cost by about the fifth oil change, the cover will last in excess of 100,000 miles if treated with WSX (ie, tungsten disulfide dry lubricant). By comparison, even when hard anodized an aluminum cover will wear beyond spec in about 10,000 miles and show a steady decline in pressure thereafter. Before using the GB-239 I take it apart, clean it good and break all the edges with a file. The socket-head screw securing the pressure spring goes into the jig and gets drilled for safety wire. The sharp edges of the outlet port are polished smooth then the Blanchard-ground surface is burnished on a surface plate using #600 W&D flooded with WD-40. After a careful cleaning the valve is re-assembled and the flatted surface treated with WSX (ie, a Tech-Line product). - - - - - - - - - - - - - - - - - - - - - - - - - - - The rain has turned into a steady drizzle, a welcome background for the tick-tocking clock. The day has gone gray as I lock Mr. Ohaus into his shiny wooden box, wipe down my tools and put things away. I stopped building engines for sale several years ago, devoting more time to horology, itty-bitty steam engines and black-powder, which makes it kinda hard to explain why there's so damn many engines in the shop. Probably because it's good fun - - plus, you get to go flying now & then. The coffee is hot in the house and there's a screen-full of mail to be dealt with plus a pride of indignant cats pointing out that WATER is falling out of the SKY and wanting to know what I plan to do about it. Guess I'd better get busy... -R.S.Hoover |
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Shop Friday
" wrote:
A truly outstanding article, but I tripped over... Full-flow oil filtration was the hands-down winner, reducing some types of wear by as much as 600%. Y'see, the way I figure it, if you reduce the normal wear by 100%, there's no more wear at all - the engine will last virtually forever. But when you put on such nice parts that the wear is reduced by the astronoimcal value of 600%, I figure it's only a matter of 100 hours or so before the engine gets so dang tight from all the accumulating "anti-wear" metal buildup that it'll no longer turn. OTOH, I think there may be a solution for those of us with nearly worn-out engines here. All we gotta do is to install a full-flow oil filtration system for long enough to restore the engine to its factory specs, then switch it back to the way it used to be for another 500-1000 hours or so. Heck, we could fly forever without any of those pesky overhaul worries. ;-) Mark "kinda like perpetual motion, only more practical" Hickey |
#3
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Shop Friday
On Fri, 20 Apr 2007 17:42:20 -0700, in rec.aviation.homebuilt, Mark Hickey
wrote: OTOH, I think there may be a solution for those of us with nearly worn-out engines here. All we gotta do is to install a full-flow oil filtration system for long enough to restore the engine to its factory specs, then switch it back to the way it used to be for another 500-1000 hours or so. Heck, we could fly forever without any of those pesky overhaul worries. You should also install one of those inline fuel magnetizers that improves your mileage by 110% or something. Only trouble with that is that you have to stop every few hours to drain off the excess gasoline. -Scott |
#4
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Shop Friday
On Apr 20, 5:42 pm, Mark Hickey wrote:
A truly outstanding article, but I tripped over... Full-flow oil filtration was the hands-down winner, reducing some types of wear by as much as 600%. ---------------------------------------------------------------------------------------------------------------- I can type over 100wpm. Oft times that's faster than I can think :-) (I was trying to type '...as much as 60%.') A few of the actual figures cited were 66% for wrist-pin wear, 50% for crankshaft wear, 19% reduction of cylinder wall wear, 52% for piston ring wear... Some years ago I spoke with a fellow who retired from Fords that remembered the project. He said it actually started in 1940 but was put aside when the engineers were assigned to war-time projects. It was taken up again following WWII but the test engines were only run on a 9-to-5 basis, five days a week. -R.S.Hoover |
#5
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Shop Friday
" wrote:
On Apr 20, 5:42 pm, Mark Hickey wrote: A truly outstanding article, but I tripped over... Full-flow oil filtration was the hands-down winner, reducing some types of wear by as much as 600%. ---------------------------------------------------------------------------------------------------------------- I can type over 100wpm. Oft times that's faster than I can think :-) (I was trying to type '...as much as 60%.') A few of the actual figures cited were 66% for wrist-pin wear, 50% for crankshaft wear, 19% reduction of cylinder wall wear, 52% for piston ring wear... Dang... guess I'll go cancel that patent application now... Mark "I coulda been rich" Hickey |
#6
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Shop Friday
I've been following the development of Diamond-Like Coatings (DLC's) for a
decade of so. These are vapor deposited coatings of carbon in diamond crystal form applied directly to engine parts. The motorcycle racers have exploited this technology for about an 8% increase in HP through reduction in internal friction. The stuff works on any internal surface where friction and wear is a problem. Lycoming cams and mushroom tappets seem like a natural aplication. The costs have come down to where a few hundred dollars of coating work is enough for an engine. However, I haven't heard of the technology being applied to aviation piston engines. Bill D wrote in message ups.com... On Apr 20, 5:42 pm, Mark Hickey wrote: A truly outstanding article, but I tripped over... Full-flow oil filtration was the hands-down winner, reducing some types of wear by as much as 600%. ---------------------------------------------------------------------------------------------------------------- I can type over 100wpm. Oft times that's faster than I can think :-) (I was trying to type '...as much as 60%.') A few of the actual figures cited were 66% for wrist-pin wear, 50% for crankshaft wear, 19% reduction of cylinder wall wear, 52% for piston ring wear... Some years ago I spoke with a fellow who retired from Fords that remembered the project. He said it actually started in 1940 but was put aside when the engineers were assigned to war-time projects. It was taken up again following WWII but the test engines were only run on a 9-to-5 basis, five days a week. -R.S.Hoover |
#7
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Shop Friday
"Bill Daniels" bildan@comcast-dot-net wrote in message ... I've been following the development of Diamond-Like Coatings (DLC's) for a decade of so. These are vapor deposited coatings of carbon in diamond crystal form applied directly to engine parts. The motorcycle racers have exploited this technology for about an 8% increase in HP through reduction in internal friction. The stuff works on any internal surface where friction and wear is a problem. Lycoming cams and mushroom tappets seem like a natural aplication. The costs have come down to where a few hundred dollars of coating work is enough for an engine. However, I haven't heard of the technology being applied to aviation piston engines. I have always wondered why the aviation community hasn't utilized more of lessons learned from the racing communities. Granted, we have to deal with certified products and procedures in most cases, and reliability should always take a back seat to overall power output. But so much has been learned from all forms of racing that deals strictly with reliability and efficency, that is surprises me so little of it makes it to GA. |
#8
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Shop Friday
Certified? Not in a "homebuilt" group!
However, that said, I think you are right...reliability is a relatively unknown word in racing engine circles I suspect... I'm still waiting for the space shuttles to be reitred so I's can get one of their engines as surplus and bolt it on my Corben :O Scott Maxwell wrote: "Bill Daniels" bildan@comcast-dot-net wrote in message ... I've been following the development of Diamond-Like Coatings (DLC's) for a decade of so. These are vapor deposited coatings of carbon in diamond crystal form applied directly to engine parts. The motorcycle racers have exploited this technology for about an 8% increase in HP through reduction in internal friction. The stuff works on any internal surface where friction and wear is a problem. Lycoming cams and mushroom tappets seem like a natural aplication. The costs have come down to where a few hundred dollars of coating work is enough for an engine. However, I haven't heard of the technology being applied to aviation piston engines. I have always wondered why the aviation community hasn't utilized more of lessons learned from the racing communities. Granted, we have to deal with certified products and procedures in most cases, and reliability should always take a back seat to overall power output. But so much has been learned from all forms of racing that deals strictly with reliability and efficency, that is surprises me so little of it makes it to GA. -- Scott http://corbenflyer.tripod.com/ Gotta Fly or Gonna Die Building RV-4 (Super Slow Build Version) |
#9
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Shop Friday
"Scott" wrote in message news Certified? Not in a "homebuilt" group! True, but you hear little talk of non-aviation products and techniques even in the Experimental catagory. However, that said, I think you are right...reliability is a relatively unknown word in racing engine circles I suspect... Oh not at all. Any of the endurance type racing, circle track, road and off-road racers are extremely concerned with reliability. The drag racers are about the only ones that care little about endurance. I'm still waiting for the space shuttles to be reitred so I's can get one of their engines as surplus and bolt it on my Corben :O Scott |
#10
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Shop Friday
Well, maybe reliability for one or two races might be thought about. I
guess what I was alluding to was that I wouldn't think an engine built for racing would have a high TBO compared to our slow turning tractor engines (Lycoming, Continental, etc.). Scott Maxwell wrote: "Scott" wrote in message news Certified? Not in a "homebuilt" group! True, but you hear little talk of non-aviation products and techniques even in the Experimental catagory. However, that said, I think you are right...reliability is a relatively unknown word in racing engine circles I suspect... Oh not at all. Any of the endurance type racing, circle track, road and off-road racers are extremely concerned with reliability. The drag racers are about the only ones that care little about endurance. I'm still waiting for the space shuttles to be reitred so I's can get one of their engines as surplus and bolt it on my Corben :O Scott -- Scott http://corbenflyer.tripod.com/ Gotta Fly or Gonna Die Building RV-4 (Super Slow Build Version) |
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