Toyota/Lexus just recalled 100k cars to have the engine replaced because it eats one of the main bearings, so they would be in good company

Excellent detective work and good explanation

Thanks for sending it to Matt for this.

Made In Austria?

That'll be a big chunk of money to get back for your travels Charlie.

. I'm a mechanical designer, and cross-drilling manifolds with offset centerlines is a common practice. I am not an engineer but i would like to ask why would u want to cross-drill with offset? Sounds seriously stupid.

@@mcqcjc8409 , usually, it's because there is not enough room. That is the case on the KTM head. If they lined up the holes, the oil jet would not have directed the oil to the center of the cam lobe/follower. If you want a compact and light engine, this is the trade-off.

Exactly what I was thinking.

@@Brad-RB So its not lack of the room - its a design fault.

@@mcqcjc8409 It might be, but it's more likely inconsistencies in the machining process. There are a lot of variables in play.

I want to add that this guy also, with sincerety, talked about glueing instead of welding the truss frames. I don't want to say it's impossible, but it's a bit far from reality as basically everybody knows: there are no glues for parts with 100°C (the frames get a bit hot). Except this guy 😂

I'm not a mechanic or a scientist but the oil used in these engines is relatively thick, not sure if it makes any difference

@@sadeqalbana Not really. Hot motor oil is only about 2-3x as viscous as blood and the smallest oil passages in a motor are as big as the largest arteries.

You are correct about jet depth still, if we take in account the given facts that cams are chewed and they are hard enough, then only other possible issue is not enough oiling. That's it, there is nothing more, it's whether oiling or cheese cams. One might even argue that the fact cams are chewed still being hard enough for the purpose is enough evidence that the jets are screwed as far as to block the passage. Only other possibility is that there is not enough oil pressure in head unit to begin with which I doubt, since it's only some of cam lobes chewed down to that ridiculous level and other components like journals and such seems fine (based on pictures from other sources), meaning the issue is in particular oil paths. So at the end of the day, while you are correct, issue stated in this video is the logical reason behind failed product.

@@lauraiss1027 I disagree. Valve train design is pretty complex. It can be anything from bad alloy used in manufacture or bad cam chain tension, to intricate stuff like bad design of striking angle for the cam lobes. In fact I would gamble that the oiling is absolutely fine. Why? There should be obvious overheating signs like bluing where-ever there is oil starvation and I havent seen any examples of that. My best guess is the cam is either made of bad alloy or it was not properly treated for sufficient hardness. That's about as much as I know about materials tho.

That might be wishful thinking. If there is a chance i’ll take it.

@@Adv_Charlie Always worth getting your money back if possible. it's a shame you've ended up with a lemon

It will slow down the cam wear and keep bearings safe 🤪 It's stupid. It's not fixing anything, it is just making a smaller repair bill. They need to make cams with better metals, make the oil passages to the cams bigger, and put an oil pump that moves more volume with more pressure.

They might have had heads with a clogged jets, meaning that shavings (or something) got into the cam follower jets and clogged one or more and caused a cam failure. They might have honestly thought this was the main issue. Hard to say. With the filter not resolving anything definaltely more work and investigation should have gone into how the jets are fed. Problem is, that if they pulled 50 heads off a production line and tested them, the might have all passed. I am not defencing KTM by any means. They did a horrible job with this issue. Seeing how this was done it looks like a design issue that doesn't take tolerancing very well. There shouldn't be a oil feed failure if machining is off withtin tolerances from just the design basis already.

I was wondering if it could be a combination between using too long of a drill bit to clear their fixturing or something then not changing the tool out often enough and getting a good amount of drift while doing the Z axis drilling operation.

@@sharg0 My thoughts exactly, if the jet was shorter/chamfered in the inner diameter/positioned further outboard, the threads wouldn't be blocking where both bores intersect. The misalignment isn't ideal but could've been mitigated with a simple tweak

@@latemnf Most unlikely. Carbide drills are almost the only thing used in production these days and they are very stiff so they break well before they show any noticeable amount of drift. So while no hole is perfectly round nor straight the deviation is within µm.

A misalignment of this magnitude in today’s machine world is unacceptable.

I am tempted buying a 790 Adventure 2024…this analisys doesn’t encourage me…The tesd ride I have done, showed me a noisy engine..I wonder if a 2024 790 twin is fully reliable or not.

MT10 is one machine that I lust for. They're rare in my part of the world, and that's another reason why they're so cool.

My Africa Twin 2020 will do close to 1000 miles in under 24 hours, so try to beat that, departing is tomorrow, destination is Uk to Italy.The stallion has 60k miles on the clock and just had a brand new clutch plates and springs put in, gonna be redlined at every opportunity on the way.

So you’ve never owned a Ktm yet bash them incessantly… moron

Yep. I could pick up a 1290 for less than my mt10 sp but I still went for the Yamaha. Marginal performance gain is nothing for a road bike when compares to trouble free ownership experience

They know what the problem is but are keeping their heads in the sand

Why? Partial blocking might well be enough ( *if* that's what you're arguing against), and the guy sounds entirely plausible in saying there's enough misalignment for such partial blocking. Although a smaller (but still somewhat open) effective jet would give a load of pressure (when converted back from speed on the far end of the jet), if there's not enough volume being supplied as well (and the 'final' pressure will never go up enough to compensate entirely for the lack of volume) then there's a concomitant lessening of designed/expected flow, and there's a problem. Were it otherwise, Mikuni, Keihin et al might as well have supplied the same size main jets (and indeed airbores) for all carbs used in all engines of differing power, as they'd always be passing it all through; and we could still be flying in tourbojetted rather than turbofanned airliners (whose engines also partly deal with the same question of overall flow). Though we do want a pressure difference, sizable jet/bore etc cross-section is surely required to be 'sufficient' as it counts to the necessary & required *volume* of 'new' oil delivered every second.

@villiamo3861 Because he looks at it from a top view from a 2D perspective. When you look at the cross section of the intersected area between 2 drills in 3D perspective, you'll see that there is no blockage issue, and this is more than enough diameter for good flow.

​@@Shahar_CSo, what caused it then?

It was always going to be an oil supply problem with that amount of lobe wear.

@@Shahar_C Nice answer and I get what you are saying. But I still think just the '2D misalignment' enough to cause a problem with the flow. The system, perhaps designed by KTM to flow just enough, say, but put out of alignment in production, will (in my opinion) provide ensuing pressure differences reflecting through the flow-bore such that the potential/expected flow is not achieved, and the real flow of material/oil is through a narrower internal channel of fluid in that flow-bore than the cams etc were designed for - ie with the other, hindered, oil becoming relatively static, changing its speed for pressure (worse, perhaps causing eddies) - in the way a relatively sharp turn in a valve intake port of a (normally arranged) combustion engine has the gas-fluid refusing to turn/flow around, for example, the outer corner pocket of the turn at the same time as the rest of the gas flow: it cannot do that much work - and the 'barrier' can be almost defined as being anything other than a gentle curve: though only partial and, in a way, at a distance from the source pressure, it backs up some of the (in this example) outer flow to some degree, so reducing the supplied volume of that fluid. And is what is actually supplied then enough for your demands?

Has done for two decades , the marketing of a polished turd is the title of that reality , our local stealership had to expand workshop area and employees to meet the needs of Warranty and the out of warranty KTM offroad bikes . That was back when they had Blue ktms , the HusabergKtm. They are like Presidents you dont ever get to know the truth, but it is finally being seen .

Jeez I really feel for anyone saves up to pay top dollar for a flashy new bike and then it blows up in a month or so. Riding Red might not be Ready to Race but at least you will be riding instead of crying

@@billyarsenault1970 The fake redktm white one and orange are so far from ready to race it is laughable . First up the Suspension needs to Fixed out of the box , all the reliability issues from brand new the factory teams swap out the dodgy bits , fuel filters that crack and drop pressure , fuel pumps that fail and near kill you on a double , 5 hr bike . Ride Real Red for sure

I do think that a lot of the problem is the oil Drain interval and the oil experiencing high temperature shear and losing viscosity. Guys were testing their oil at 5000km and it was testing as a 10w30 viscosity. As viscosity breakdown occurs oil pressure drops off. No pressure = poor squirting. The motorex oil has the worst high temperature Shear value i have seen reported. Simply switching to an oil with better high temperature shear and changing it more often may save the Cams.

@@AceCarleton Generally I do change out my toys oil with full synthetic and filter at or before 5000km. Oil dilution is a big factor. Gas blow by past piston rings. Burning scorching of lube, foreign contamination like condensation. Also the KTM issues that I've looked over, are in my personal opinion is a lack of sufficient lubrication. eg some talk about soft metal used in manufacturing of the camshaft.. If so, the cam may warp, twist and may experience loss of rotational alignment. Their has been no evidence of that characteristic. So lubrication issues are what I feel is the cause of this epic failure. Remember the purpose of good oil lubrication is to keep the metal surfaces from comming into contact with each other

@@AceCarleton I can confirm that, I've used motorex once and I'll never use it again, I live in very hot climates and motorex just don't hold well

​@@AceCarletonis Motul 15w50 5000 ok for ktm?

There have been videos of people with worn cams showing the oil squirters working fine with the engine running off the starter alone. So I don't entirely agree with these findings.

20mm... no, the threaded hole is not 20mm deep. The feed hole is intersecting just the corner of the hole, not bisecting it. The two nozzles are both feed by the same feed and they do not connect to each other.

Sorry, I'm not convinced that is the issue, "alignment". Of both drillings. You have not given any measurement or depth of said jet, when seated. The jet cavity clearly goes down and past the depth (width) of the vertical drilling. Clear space for fluid travel. So unless the jet nozzel goes down past the vertical drilling and then bottoms out, restricking the flow ( in to or out of the vertical drilling) you have a mute point. As a fluid under pressure will flow, even if drillings are offset, providing there is a space. Further, a top & bottom view of said jet would be useful to understand how it functions as a whole. You stated the flow is down the vertical drilling. So then how is the jet feed? If on your further statement, "the jet uses fluid dynamics to increase pressure, through it's nozzle"? This would then be flow in the opposite direction and up the vertical drilling or did I miss something? Also, you have not given us a look at all of the remaining drillings (offset or not) for comparison. Is that four per cylinder?

@@jacktupp1427 The vertical and horizontal are not lining up....because they are not lining up...the horizontal (where oil jet is screwed in) is partially occluded. Because of the occlusion....the proper volume and pressure is not coming out of the jet, especially under higher RPMs.

@@justmyself1000 building oil pressure should push oil through the jet, offset or not. Now if that nozzle is narrower or wider than it should that's a different issue. I honestly don't know.

@@C_R_O_M________ It's not just a matter of pressure, but oil volume.....But if the passageway is partially occluded, it will not only affect the volume, but the pressure.

the problem is the misalignment of the 2 holes there is not enough area because one hole is offset relative to the other to put sufficient oil through to create a big enough squirt to get sufficient oil to the lobe

@@Bristolcentaurus This miss alignment is only a problem if the bottom of the jet covers the area of the cross drilling, if the jet isn't long enough to reach the cross drilling then you just have a cavity feeding the jet and alignment doesn't matter. If the oil feed problem is to do with this miss alignment then a shorter threaded section would help, even adding a countersink to the back of the jet would help.

@@Thebowber Thats what I was thinking.

@@Thebowber how much cross sectional area do you have ? how much oil can that cross sectional area flow ? any reduction in cross sectional area is a restriction to flow and a restriction to flow is a restriction to flow

EXACTLY !!

As someone mentioned already, a tapered inlet on the rear of the the jet maybe all that’s needed to prevent flow restriction

100%.

you are right, but if the holes are misaligned significantly the crossection area where both holes meet are the limiting factor.

Also lack of valve adjustments can cause the where to cam faster do to lack of valve clearance. So oil cant lubricate properly. Like mechanical flat tappet camshafts. Wonder if running a bigger gap would help. Or if valves are stretching to much.

I thought the same thing initially BUT I believe he has hit the nail on the head actually. You would be correct IF the threads extended all the way down to the other drilling which looks to be anywhere from 40-50mm deep. That is not the case. Why would you drill a threaded hole 40mm when all you need is 10mm max for thread engagement? You wouldn´t. As such, the only hole that reaches the other cross-drilling is the actual smaller diameter. In the end the contact area is defined by the overlap of both smaller diameter holes and they need to be very, very accurate. If they are not dead on the orifice will be starved by insufficient feed pressure and then say goodbye to your cam. I think he´s got it.

In Austria there is a saying KTM stands for "Keine Tausend Meter" (no 1000 meters (between repairs)) 😜 but i still love my ktm!

In England 'Keeps taking money'.

@@warwickscram1656 🤣

In Sweden it's "Knuffa Till Mål" - push to the finish line.

​@@peterbonivart6818 Nice to see that KTM is internationally known for its reliability 🤣 Still love the bikes.

I've seen a video of one of these bikes being started without the cover on the head...and there's a patheric dribble of oil out of the jet that doesn't even reach the cam lobe

Absolutely , without the jet his assumptions are guess work - the only way to prove his theory is to have a flow test at each exit nozzle all at the same time to see if there is a imbalance of flow/pressure , so all 8 jets in place and readings taken altogether , anything else is simply “i think” which is not good enough especially if you are trying to prove in court . Not to mention he has only one head to draw conclusions on ! To clearly identify the problem you need to establish a pattern with many heads and the background history of each bike , as a moto sport engineer with over 30 years experience at world championship level I am convinced it’s an oil flow / quality issue so he maybe on the right path , obviously the design is not bombproof as there are many examples now and they cannot be all customers neglect , maybe the design is weak and therefore cannot tolerate extremes but there are many high mileage examples now without issue , maybe it’s poor quality control - for sure KTM will now know but don’t want to admit because it’s going to cost them a lot of money , they for sure give limited knowledge to their dealers and tell them to say it’s not any issue as they all say oh that’s the first time I have seen that problem 🤦🏻 , it’s not just KTM most manufacturers are in denial when they don’t have a solution , can’t afford the fix or don’t have the replacement parts ready - I have worked with most of them and know they do this , otherwise their admission would be a nightmare and customers could rightly demand a full refund on their bike/car if an immediate and satisfactory solution could not be delivered . For anyone doing a top end job then I recommend spinning the motor with the rocker cover off - it will be and should be a messy affair but you should see good oil flow and equal flow from each jet onto the cams , this design is tried and tested in their enduro and MX bikes but for some reason is occasionally failing on this model , the flow rate is absolutely critical for good service life , those cams last minutes in an MX bike if the flow is restricted !

@orange1666 this has already been done, there are videos on KZbin... and yes, I would love to have this head for longer, but that's just not possible...

Over the top? Thanks for the review.

My thoughts too. I've contacted a mechanic I know has done several under warranty and hoping to get a head from him. He's got two old ones he swapped 3mo ago under warranty. If it all works out, I'll bandsaw and mill out the head like Matt intended...

The jet just makes things worse, the main issue is the alignment. The intersection is on the side of the jet hole, not the back.

I first came across this squirter system on my Husqvarna FE250, and it scares me no end that the oil can be contaminated with clutch debris and the jet holes are tiny. If they are going to filter the oil supply to the head, they need to make the filter a centrifugal one like Honda does/did with the crank oil on their small bikes. My 2019 125 Monkey has centrifugal filtered oil going to the crank and also the cam where’s the newer monkeys now only have a paper filter☹️ The centrifugal filter collection cavity on these bikes is good for thousands of miles, and is a brilliant idea that has been in existence on Honda C50/70/90 et al since I were a lad………

@rogercrier9115 but there's a 5 micron oil filter... like all bikes today.

But surely, if there is a filter blockage and the filter starts bypassing, then any supply to the crank/ head is compromised. A centrifugal filter cannot get blocked! It can get “full” but that would take tens of thousands of miles

But does the nozzle screw all the way down to block the top feed drill hole?

"KTM is now taking goodwill actions on damaged cams even if the bike is out of guarantee." This was the obvious and necessary solution all along. Have the integrity to say: "Our engines shouldn't be failing like this. There's a clear pattern which points to design or manufacturing error, so we'll own this and put it right" KTM's denialism has hurt their brand reputation. Who would trust them after this?

Yes

The vertical feed hole is drilled after the jet hole. You can see the thread profile intersect the feed hole

Cheapest fix for a layman or a workshop would be a countersunk rear oil feed no? I mean yes ktm should take accountability though

Doesn't need to fully block it off though, just enough to restrict flow and cause premature wear due to an inadequate oil supply. Shame he has to send it back as would be good to have got some KTM jets and cut it open to see if theory is right. It certainly looks like a very plausible reason and would make sense for this specific failure.

It's not a matter of how far the nozzle goes in....The hole where the nozzle goes in doesn't line up with the vertical hole that feeds the horizontal hole where the nozzle / jet is screwed in.

I disagree. Oil squirted under pressure should still reach its target, rather than rely gravity.

Yes good point Chris. I wonder what other manufactureres have used in their engines over the years.

As several people have stated it depends how deep the base of the jet screws in, if it doesn't bottom out at the down hole but leaves a cavity between base of jet and down drilling a misalignment won't matter

@@bencodunedin6634 Whether it bottoms out or not....the horizontal passageway is still partially occluded because it does not align with the vertical...the occlusion causes less volume and different pressure.

@@justmyself1000 And that occlusion will not only restrict flow but the pressure increase caused by the smaller passageway will have the effect of directing the flow that was meant for that particular jet to somewhere else in the head, (path of least resistance) 100% agree with your diagnosis 😊

YES! He didn't take that measurement before casting blame on KTM.

Until we actually measure up a jet. We don't actually know.

This video is simply nonsense, and I'm glad you asked the key question. The length of the threads on these jets is 4mm, while the center of the cross-drilled hole is 10mm away, so no interference is possible.

@@ronskisadventuresinbackyar8013 That's not what he said. The jet isn't obstructing the flow, the misaligned intersection of the two bores is. An insufficient volume of oil reaches the jet for the jet to function properly and squirt it onto the cam lobe.

Even with this fault fixed the 790 engines suffer with coolant and oil leaks. Then you have the dodgy electronics on them that can randomly stall the bike. They are basically junk. The 790 Adventure was a £10500 bike now they go for as little as £5-£6k with less than 10k miles. The guy was a bit crazy to pay KTM 5K to repair the head in my opinion.

What year 690 do you have? No known issues on the later engines with cam wear so that's good news for us

@@RichardHinks-c1hsvartpilen 701 my.2019. Actually checked the valve clearance recently when servicing the bike. Light “marks” that could be seen with eye in the cam lobes did caught my attention. However no cam wear, at least not something that could be felt with fingernail. I’m not too worried about it now after check, but I am going to keep checking them in upcoming services just in case. Not sure if the newer lc4 with twin balancer shaft is better. But this is also what I’ve heard

Trying to get my hands on one.... I have 2 lined up that were warranty jobs a few months ago. But will be a month before I can get to them