The Most Tortured Part In An Engine

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I have a 1976 Triumph Spitfire 1500 that the previous owner had ground the head down to increase the compression. It was so high that I couldn't get rid of the pinging with the highest gasoline available to me. I bought two stock head gaskets and I found some company that made me a copper one. I sandwiched the copper gasket in between the two stock ones ( I sprayed a copper sealer on them first) and bolted it down tight. That was around 25 years ago and it still purrs like a kitten.

Even as a former Subaru owner I never thought about head gaskets as being that high stress of an item, you've really out a whole new perspective onto things with this video for me

Many years ago a co-worker asked me to take a look at the engine of a boat he bought cheap. The engine did not run and upon disassembly, I showed him the head gasket was completely worn out. Due to the cost of a gasket for an outboard motor, he wanted assurance that it was the only problem. He did not want to spend money on a new gasket to only find out the motor had other issues so I took some common gasket material and made a temp head gasket and reassembled the engine. It started and ran nicely.
He asked how long the temp gasket would work and I had no idea. It was the same type of material used for water pumps. I said, maybe a minute, maybe an hour. I really did not know. Just buy a proper gasket now that you know the engine is good. Well... he did not listen. That weekend he went to the lake and took off with his boat across to the farthest point when suddenly, the gasket failed. With no oars, he and his friends hand paddled the boat back. I laugh so hard when he told me what happened. 🤣🤣😁

I work in healthcare and know next to nothing about engineering. I’m blown away by the complexities of mechanical engineering that are never learned by the average person who depends upon engineered machines in all aspects of life. Truly a joy to learn about these subjects.

I loved head gaskets as a mechanic. Good flat rate hours, easy to do, virtually no come backs, and a steady supply of them coming in. Especially older composite head gaskets with an MLS replacement.

I have replaced several head gaskets in my short time working with combustion engines, and I never stopped to actually truly appreciate how well engineered these parts have to be in order to survive hundreds of thousands of miles on the road. Thank you for this video! This has really given me a new perspective on a part of an engine that most people don't even know exists!

A minute of silence to those cars owners that got a call from their mechanic and ended up here to find out what a head gasket is

Dude this channel is like a modern day "Modern Marvels" no BS just easy to understand and straight to the point explanations for very complex and complicated concepts. This channel has answered certain engineering, mechanica,l and material-science questions I've had for years answered within 20 minutes.

In 2005/2006 we were trying to build the 1st 1000whp e36 328 (m52 engine) The toughest/most aggravating part of the build was getting the headgasket to seal under high boost. Around 17psi the gasket would blow out in between cylinders. One reason why we went with the 2.8L m52 instead of the 3.2L s52 from the m3, m52 has a bore of 84mm and s52 is 86.4mm. Those extra mm's made all the difference. Even with the extra material we still o-ringed the block n head. That was the trick that put us for ahead of the competition and helped us have the world's 1st 1000whp m52. Also 1st in the 9s while still having full interior, heated seats and ac.Havnt been back to the track ever since we got kicked out and told we need a parachute lol. 16 years later and only like 2 others have made that much power. Truly were miles ahead of the competition.

Engineering is really really fascinating, the small things we take for granted in everyday life that came from decades of research and trial and error, fantastic content!

This was very interesting! Great timing I'm rebuilding an engine for my truck at this very moment.

There's a reason RUclips is still relevant today and it's because creators like you. Another great video!

I work in heavy truck parts sales, and all of our parts are BIG, including head gaskets. We have a regular customer who constantly questioned the price of absolutely everything he'd try to buy from us. One day he came in looking for a head gasket for a Paccar MX-13, of course he was quite shocked at the $350+ price tag, but I told him we don't carry aftermarket options. So I went to go get the part, and when I came back, sure as hell he asked me "what does this part do anyway?"
I was actually too stunned to speak...not because he didn't know what it does but because he was questioning me on price WITHOUT knowing what it does. I had to educate the guy on its function but to this day I was genuinely stunned that the owner of this truck, did not know what the part was, why it was important, and why it's so expensive. Don't friggin question me on the price of a part when you don't even know why it is probably the most important part of your truck you DUMB WALNUT.
This video reminded me of that incident, tis a great vid.

Imagine someone asking that question to this guy at a bar and then he drops this

I have only recently come to appreciate how critical this simple-looking component is to the efficient working of an engine. I have done two replacements already and looking to do another one later today and now I appreciate the precision engineering that has to be applied to keep compression, oil and coolant separate and contained.

Good video. No jokes, no annoying voice, no obnoxious music, no unnecessary cringe. Thank you.

I love how something so simple can become a fascinating video and something that I don't think I've ever really seen anyone else on RUclips address like this. Can't wait to start sharing this with friends.

EXCELLENT VIDEO!
Me, ASE Certified Master Engine machinist for over 30 years. I have been working in the engine rebuilding industry for 55 years. Had my own shop for 20 which included a Comec wet surface grinder capable of accuracy of .001 per 12" of length which is what we used to surface both the heads and blocks.
Back when I opened my engine shop in 1978, we saw a lot of Honda 1200 and Chevy Vega engines with blown head gaskets. The Honda was all aluminum while the Vega was Aluminum block and cast-iron head. Both used the "open deck" type of block. Both were composition gaskets "squishing" about .007-.008 when torqued. My thoughts were that the cylinders were "moving", and the gasket was not adequately being compressed on the cylinders.
My solution was after machining the gasket surface of the block flat, I then went around the outer edge of the block and machined an additional .001-.0015. That resulted in the cylinders "standing proud" .001 compared to the edge of the block for a tighter clamp on the fire ring. This really helped the durability of the gaskets.
But they still needed retorquing which in the case of the Honda meant removal of the rocker arm assembly since it sat over the head bolts, UGH!
About this same time a LARGE gasket company (FP) announced their no-retorque head gaskets! We were jumping for joy thinking of all the time they would save and started installing them on our engines right away. Within WEEKS we started seeing problems! These engines started spitting out head gaskets some in as few as a couple of thousand miles! The VWs in particular would come back with actual pieces of the gasket hanging out from the edges of the head! We stopped using them and went back to OE type gaskets and the problems ended.
The company asked me to send them back so I sent 1 of each, Honda, Toyota and VW. They called me and said they would warranty the gaskets. I said that was OK but did they want me to send them the REST of the failed gaskets we had? "How many more do you have?". I told them 32, SILENCE. Then he said "let me talk to someone". Another voice on the phone "Is there a major airport near you?" yes "A couple of reps are going to fly to your shop and see if we can tell what's happening".
The next day the VP and head of Tech arrived at my shop. After examining my machines and procedures they could find nothing I was doing wrong and said they felt it was the area WATER that was the cause!. I was stunned but before I could open my mouth he said "BUT, we are prepared to offer to pay you parts & LABOR for all the failed gaskets PROVIDED you sign a release form and will make NO further claims against us. It was a LARGE CHECK so I took the offer.
They must have sold a LOT of those gaskets, we continued to see failures of them that others had installed for YEARS after that!

This explains a lot. If you had a Ford 3.8L V6 in the mid 80s to late 90s, it was virtually guaranteed to blow head gaskets. This problem was virtually eliminated in 99 when Ford started using the MLS head gasket for this engine, which you can now turbocharge in stock form up to around 420 hp with no reliability issues.
I had read of the MLS gasket many times but never really understood the history until now.

Blown head gasket is still the most common engine failure you hear from people to this day, at least here. Unless you really mistreat your engine it's fairly unusual for any of the mechanical parts to fail.
I've only had one engine fail really badly (i melted 3 of the 4 pistons), because I kept running it for over 100,000km with a blown turbo seal - it would lose oil pressure at idle, but as soon as you revved over 1000rpm the warning disappeared. Eventually it gave way completely, sucked all the oil through the intake, and I ran it dry at 200km/h until it cooked itself to death.
The oil light never came on and coolant temp. was normal, I only noticed something was wrong because I tried accelerating and it was not responding. I stopped as soon as possible (less than 1km) but by that time when I opened the hood the turbo was glowing _orange._
After refilling with oil I still managed to turn it back on and drive 20km to the mechanic, surrounded by a cloud of oil.
Absolute tank that engine.

Oil pressure should have been up to 5,5 bar, not 50. The convertion from imperial went wrong

Shout-out to all the head gaskets out there, we know your under a lot of pressure!

Especially in mixed alloy head and block combinations... The thermodynamic coefficient of expansion rate differences are absolutely punishing...

One thing I would like to add about head lift and the use of a gasket - The gasket is compressed during installation, so even during extreme cases of head lift (0.001") there should be no separation occurring between the three components.

Great video! One problem, in the first half of the video with the diagram of the head gasket the oil galleys and water ports are switched with eachother, since the coolant will need to be taking heat from around the cylinders and the oil usually just drips back through the head gasket down to the block

As a recent graduate from a Automotive Technology program, I think this video would be a really good reference and history for in-class use. great job!

First time ive ever seen your channel (im gonna rant for a sec forgive me my autocorrect doesnt work).
Im a Hino Master tech, working on detroit side of Feeightliner (and I might as well be for Volvo) and man I gotta tell you not only did I learn something I learned lots of things. Im amazed by you. .
Instantly subbed. Your vid got me going.

For those curious, there is a major improvement to typical head gasket design, called "O ring," which places a steel ring in a groove shared by the block and head, and crushing a copper gasket between the two. This creates a much stronger seal, at the cost of a bit of engineering and of course the material cost of copper. This is what many drag cars use, and with it you're more likely to pull the studs out of the block or bend a rod than blow through it.
Very well put together and informative video, though! I enjoyed watching.

Your initial list of requirements doesn't include "cost" even though it is a primary driver in most engineering decisions (as seen in the rest of the video). I was wondering why they didn't get around to using crushable aluminum gaskets, but by the end of the video, the copper ones basically fill that niche.

The most highly stressed component in a race car is the nut that holds the steering wheel!

This was really fun. I have installed a lot of head gaskets over the years and have seen many of the designs shown. I hadn't thought about it at the time but I could definitely tell how things progressed over the years. Thanks for the excellent video!

Hats off to you my friend, what a great series so far. Can't wait to see what else you do.

I remember replacing my first head gasket. Didn't know you had to turn them an additional 180 degrees after torquing. I found out after a few months...

Head gasket replacement was my first diy, major engine repair. 18 years old, no idea what I was doing and terrified. But I was a young working man and paying $475 (in 1999) for a mechanic, vs $25 for a new gasket and fresh coolant was a no brainier. I had no help... There was no RUclips or even a phone to watch it on lol. All I had was "the book" on my particular engine, Chevy inline 6, and a toolbox.
😁 After the 3 day struggle I not only understood how to change head gaskets but also had ascertained how to adjust valves and how rocker arms worked with pushrods and all that stuff. 👍
Lol I also learned to have sufficient antifreeze. 😊 It's funny how the head gasket can endure pressure and immense heat, but freezing water will quickly destroy one. Lucky that's all that happened.

“The need to contain the power of reciprocating combustion will still exist for decades to come” gives me hope as a tech/ body shop mechanic. These motors will last a good while and someone needs to fix them!

Engineering is so cool. There isn't a single person in the world that can actually dislike that.

I remember thinking "what a stupid component, why can't they make em better" after blowing a head gasket.
I stand humbled by the mighty head gasket now

Vintage Ferrari mechanic here. Old aluminum Italian engines, especially V12, really like to move around a bit. Using permatex Aviation Sealant ALL over the head gasket does the trick better than anything I’ve used. It does not ever fully cure meaning it changes none of the dynamic of an otherwise naked head gasket.

The man is the head gasket of the family. Tough, serves many purposes and exposed to unfathomable stresses.

Learned something completely new AND PRACTICAL/APPLICABLE. Thank you newmind

I’ve always been told that connecting rod bolts are the single most highly stressed components in an internal combustion engine, in terms of pure mechanical stress over a given area / psi force through the component. Head gaskets have a tougher life overall but those combustion pressures are only exposed to a minuscule are of the head gasket when clamped properly.

I remember when I was young a lot of cars used to have the head gasket problem even without overheating or any issue, I wondered why I stopped hearing anyone have problem these days, thanks for the rich informative video

Love this channel. People don't consider edge cases and failure points in systems often enough.

There must be a graveyard somewhere of Mini head gaskets that is testament to your claim. I must have replaced at least a dozen on my Mini and my sister-in-law's in the space of a few years.
Mini head gaskets were notorious for blowing due to the truly tiny web between pots 2 & 3! Apart from one, which was down to a different failure, ALL the ones I replaced went at exactly the same point. Until, that is, I was given a tip by a friend who rallied Minis and told me to use orange Hermetite as well as the gasket. Never had another one blow after that! 😎

This was very cool. On my air cooled VW's, it's generally agreed that you have to go in and re torque the head studs, since the sealing gasket is either copper, or simply cast iron on aluminum. Sealing torque is also only 18-21ft/lbs.

I'd like to preface this with the fact that I am not a proffesional mechanic( never even touched a wrench before this job I have now) but I change oil, thats it. This was very useful to me as I always hear my coworkers letting the customer know 'hey, you have a head gasket leak'. Anyways this being the most common thing we see on arrival this was just very interesting.

Wow, amazing job. Thanks for your effort to make this. One day I'm going to replace the headgasket on my Peugeot car. Fascinating to learn there has been so much engineering behind it.

There's a reason for this channel growing over 100K subs a year. It's been my favorite for over 4 years now. Thanks for sharing this great info.

My head gasket just blew on my 2005 Honda civic and it was not a fun time! A relatively expensive repair but this video is a good explanation of why it happened considering that it’s lasted all these years it was only a matter of time.

I've changed head gaskets and they are a huge pain/cost to replace. But now you got me watching a 20 minute documentary on them

MMO oil additive truly does help lubricate the least lubricated but most important component in an engine, the piston rings! Sodium Silicate based head gasket sealers (blue devil) DO work when applied properly

Informative! I'd always thought piston rings and exhaust valves were the most punished parts.

You definitely missed a lot of zeros when converting microns to inches on your ra values. 1.5 um (0.0015 mm) is 0.00006 inches, not 0.06"

Bro i am not even 2 minutes in and this is already so cool. how've i never thought of the importance of the head gasket? I knew it, but its like one of those things that are designed so well you dont even think about it.

What about piston rings? We've come a long way since the original hemp packing in steam engines.

I rebuilt my XL600R with an elastomeric gasket. Air cooled, and only had silicone for the timing chain since oil is external. I never did a rebuild before, and I thought the strange crush ring was kinda funny. But it was a minimal cost rebuild with just a hone and rings at 50,000 miles. I really just needed to take the head off to fix the exhaust studs, and figured I’d refresh some things for the next 50,000 miles.

7:48 cooper is annealed when cooled fast, not slowly (it's the opposite of steel)

I love the tortured conversion of PSI to "kilograms per square centimeter" instead of just using pascals.

It always amazes me how flimsy head gaskets are, especially when you feel how heavy the cylinder head and block are.

I know an ex design engineer from Vauxhall. He hand scrapes his engine blocks and heads flat when he buys a car. He then fits a copper head gasket that he made himself. He has never had a gasket fail! He has being doing that for 70 years!

2:17 kg/cm² ist not a unit of pressure; kg represents mass not force. Use Pascal (Pa = N/m²) for pressure. Atmospheric pressure is around 100 kPa (~14.5 psi for non metric countries like Liberia). And check your calculation 1.5 bar may convert roughly into 20 psi, but 80 psi would be 6 bar not 50.6. 50 bar would be around 700 psi.

Its crazy how i understand all the scientific bits usually i would oversee all these numbers like the mega pascals or the anneling method, but because im currently studying engineering it just makes more sense and it starts to fit in. Thats pretty mind blowing

2:19 fairly certain you meant 5.6 kg/cm², not 50.6, since that's what would actually correspond to the given 80 PSI equivalent conversion

Why do I need Brilliant when there are youtubers like you?

3:04 you got engine coolant and oil mixed up but I mean it's the same idea

I just discovered this page today. I love the smell of newly discovered RUclips page in the morning!

Subaru has left the chat…

Makes me appreciate head-gaskets more since something that looks so simple took decades to refine. I always laugh at fools who are too cheap to buy a new one and reuse the old one.

Toyota Camry is one of the most reliable cars on the planet. We have one identical to the one shown and it just keeps going and going, year after year, with maintenance of course.
Love this series.

Subbed.
Exactly what I've been wondering about.
My gasket dribbles oil and water over the engine like grandma eating oatmeal, but at least they don't mix and I don't loose power. Just make a mess on itself and leave little drips occasionally . . . like grandma.

I remember hearing that GM developed Dexcool instead of reengineering their head gaskets, as it can still act as coolant even with oil present.

Never would have considered the head gasket since it seems like a non moving part. Thanks for sharing.

The conrod, hands down the most tortured part. The headgasket has more then one function, but its not the most stressed part by far.

Amazing how well they work. Ive got a '97 with 254k miles on it and it runs perfectly!

I discovered a mistake in the video: At 3:11, it should have said " 1.4 - *5.6* kg/cm^2 " instead of " 1.4 - 50.6 ".

Hi. Top notch video, thanks. It still pays today to recheck the torque on head bolts, even with modern "tighten-it-once" gaskets. I found that ensuring each bolt (or nut) ran freely on the thread with no trace of binding was the best way to get even clamping pressure over the whole head. A smear of H.T. grease on clean threads means the nuts don't seize after a few years of use. Copper was great because it only needed heat annealing to be used again. Cheers, PR.

Kind of feel the connecting rod is at least in the top 5. Personally would have given it the number 1 spot. It is a lever that is long, has to change vertical movement to horizonal rotation, and is usually under stress. It also bears the weight of uneven friction if the pistons want to not piston for any reason.

There's nothing more scary to car owners than hearing the phrase: "We have to replace the head gasket"

50kg/sq cm is 711 psi, not 80

An no mechanic electrical I understand have never seen before an explanation of head gaskets that live in motors (non mechanic here)..followed it and even down 2 how they are manufactured nice ....the micron tolerance rates as the pistons try to lift the bolts away under that amount of pressure ....next time I put key 2 ignition in my 4WD I will pause and think after watching this and yes I restarted and watched twice ,so much more lateral pressure in a diesel yes I paid attention but I digress I have been know 2 do that tk for the upload

I seen the title and automatically disagreed with it, finished the video and dont really have anything to disagree with. As a 20 year mechanic I hardly ever see head gasket failures these days, ingress due to the pretty amazing engineering. Building high performance engines we have to nail the details of the sealing surface, blocks and heads are a mirror finish, MLS headgaskets and arp headbolts usually does the trick. The main parts problems I see these days is running engines exponentially over there design capabilities and trying to pinch pennies and not replace every part inside the engine with the best stuff on the market. Right now I'm building a 60s engine that was originally 125 horsepower 7:1 compression and taking it to 500 horsepower 10:1 compression with 20 pounds a boost, not an easy feat. But feel like the head gasket is the least of my worries and rods and crank start becoming the weak point. Of course you can replace them with 1 off forged pieces, but where is the fun in that.

Just fyi the micron to inch conversion was substantially off. Great video

I would like to also nominate throw out bearing in manual transmission. It have to endure quite a lot of force and lots of cycles. Especially when sitting in traffic or at high revs. Plus no way to add lubricant after installation.

I had a plymouth acclaim, head went wompy and the gasket was able to keep the oil and coolent separate and it didn't let gasses out but it did burn about 1/2 gallon of coolent per oil change. I drove that car for years that way lol

It's amazing to consider all the little things that go on right in front of your feet. Or in my case, as near as 4 inches from my right foot in my van. For anything to function properly, there has to be a long list of things with various degrees of acceptable tolerances, all happening hundreds to thousands of times per second. All in a meticulously orchestrated "dance" of fluids metals, composites, fire, electricity and so much more. It's a chain. Just one of those little things fail in even a small way, the entire thing suffers in performance or risks potential, permanent damage.
A lot of young people think that their dad's, uncles, paps, or anyone else who preaches about vehicular maintenance, is just a blow-hard and likes to complain and worry. "Oh my oil was just changed last year! It can wait. - I' don't need to flush the coolant. My truck doesn't overheat. it's fine!" Sure, it's running fine, Now. But what they don't account for is those minute stresses,. forces and movements going on in their engines. It not just 4 to 8 chunks of metal bouncing around, and a spinny-ma-jig whirling around. No. As the host said, there is thermal expansion, temporary movements and many other unaccounted for actions going on outside of even the best of human eyes ability to perceive.
So when dad says "Did you change your oil?" or "You may want to get a coolant flush." He's not nagging. he knows. It's called Maintenance.
The car is a machine. Machines absolutely MUST have regular maintenance to operate properly. Any thing that slips, rubs, pivots, turns, or reciprocates, will eventually wear out. Proper maintenance can drastically prolong the life of those components. From the crankshaft bearings, right down to the hinges of the glove box. If it moves, keep it properly lubricated. Trust me, there are WAAAY more things moving in your car, than you think! So pay attention, read up on how things work. Put that cellphone to use, (NOT while driving!) and look up how-to's and other things about your car, instead of tick tocking and posting duck-lipped, or mindlessly screaming in vertical videos on isnta-scam.

This channel is so underrated.

The most tortured part of engines are the piston rings in my opinion.

Please, PLEASE do a video on welding/brazing. It's a cornerstone of modern engineering with a rich history dating back to our discovery of metals, with major innovations in methodology and peripheral technology. It should be up there with the science of flatness and other machining techniques. There's a lot of molecular physics going on, creating structures that make good welds oftentimes stronger than the metal on the original part.
There are also many unique aspects such as underwater welding and automated welding that can be covered

This is a really interesting video so I hate to be a pedant, but there's loads of unit errors in here. You're inconsistently measuring pressure in Kg/cm^2 and Pascal (4:30), force in kgf rather than N (7:00), using the wrong capitalisation for milli and metres (14:10), rounding unit conversions with the wrong precision (12:20), using u rather than μ for micro and mistakenly using μm when you mean mm (14:20). It's difficult to follow your point through all of this.

This is not a joke. Back in the early 70s in diesel school. We put a Cummins small cam 855 engine on the Dyno. Even with 36 head bolts torqued to 330 foot lbs. At full load, working as hard as it could. You could take a two thou feeler gage and move it back and forth between the heads (3) and block. The teacher had each of us try it.

Seeing kg/cm² being used a unit of pressure made me die inside.

I would argue to say that the head bolts are the parts under the most stress. Being under a mm thick and the small amount of surface area that's actually being subjected to the forces of combustion. The gasket in how it's designed is much stronger than the bolts that hold it together. The bolts are already under a lot of pressure at rest, then when you add heat, the head and block both expand. Which increases the pressure load on the bolts. And then when you accompany that with the pressure of combustion that are further trying to push on the bolts. Yes, the gaskets are exposed to more harmful conditions. But they're not under the most stress

Sittin here watching this with my Landcruiser like "see boy? It's not your fault! It happens often!"

A lot of modern engines produced by Honda and Toyota have high compression ratios. That must make the importance of head gasket even more important

Thank you so much for another amazing video!
I would have imagined that the most tortured would be a moving part but I must say I never thought this much was put into its design...

This is amazing! I was just “mansplaining” to my girlfriend yesterday how crazy head gaskets are, and how vulnerable they are to anything going wrong with the engine.
I’m about to watch the video, and I’m sure you’ll cover it, but the problem with a “blown head gasket” is that it’s rarely ONLY the gasket that’s wrong with an engine. Just because a head gasket by itself is pretty inexpensive, that doesn’t mean simply throwing a new head gasket on will solve your problem.

Yes I read the title and all that. That being said, the most strained part anywhere is not the thing that transmits but the thing that contains. Containment is much harder and more stressful. Containment is foundational transference is conditional. Can't transfer anything that you don't have. And it's possible to contain something and then be like "Now what?".

Hey bro, great video but some of your metric to freedom units conversations are off by a tad. Oil pressure early on (50.6kg/cm2), and then surface roughness about 2/3 through (80 though is 2mm not 2 micron)

Its mind baffling how an internal combustion engine, working at such high pressures, temperature and speeds and can reliably run for decades. Its because of over hundred years of constant innovation. Its neat to see that process for this crucial head gasket.