I find myself taking the expensive way which is buying whatever I wanna take apart, and then buying a used one in bad condition, and taking that bad condition one apart and not worrying about breaking it. And then learn how and proceed to take apart the good one. Headlights are another story, since they’re either pretty easy and the perma-seal is pretty giving. Or it can lead to someone (me) buy 3 sets of 2 headlight. The first headlight I took apart was pretty easy and gave me a lot of courage, however that was the only easy one to take apart. After a lot of cursing and parents asking while I’m putting headlight housings in the oven, I got my retrofit complete. The Morimoto MLED 2.0’s in my car have been in for a little over a year, and they’re still going strong. I don’t really want to do that whole process again.
I really really appreciate the graphical animations you provided with your explanations of fluid displacement, compression vs rebound flow and the varying roles of shims in the shim stack. HUGE THANKS!!!
I've seen the guys at Lotus doing this stuff, and it's some sort of Engineering Black Magic. No matter how much I read, understand, it's amazing to me how people that really know this stuff can have a 5 minute conversation and then rip things apart and 30 minutes later completely change a car.
Accutune rocked for my 3 linked toyota project. Their tech knew exactly the right questions to ask even for a guy without an engineering degree and basic construction tools to get the geometry "close enough"
A very successful open wheel engineer explained springs and shocks very simply: spring rate determines how far the wheel moves. The shock determines how fast it moves.
Great entertainment and excellent explanations as usual Matt. Thanks Oh yeah, fun fact - in Australia , a mixture of 3 Cups of Self-Raising Flour, 1 Pinch of Salt, and a can of your favourite Beer, cooked over coals in a camp oven - is also called Damper
I've seen/heard the explanation as to how shocks do what they do before, but the visuals along with the explanation made it so much easier to comprehend! Thanks for another great video - All Hail the Algorithm!!
@ 5:21 regarding heat treating. If the metal is 'case carburized' or surface hardened it will make for a hard surface that can be machined for a smooth finish. On the other hand a 'through hardened' part could be brittle.
Dual damper per wheel setups won't work as intended unless both dampers are tuned to provide practically identical damping force curves, but at half the magnitude of what a properly tuned single damper setup. This enables the dampers to share the workload evenly, improving longevity and reliability, without messing up the suspension tune.
"Dampen" is also correct though as a verb for damp. You are correct about "Dampener", that'd be something to make something wet and that's where I largely see people make this mistake (calling a damper a dampener). But there are 2 definitions for dampen: 1. make slightly wet. 2. make less strong or intense
If a shock company had a video that was as clear/info packed as this on their product page, I'd buy from them. The fact you use Keynote for this, even more insane.
thank you for the clarification of damper vs dampener, I have been using that illustration for quite some time, but I specify a squirt gun as the dampener, you wouldn't believe how many people use the wrong term and argue that it is correct, even in NASA, they even invent new terms like "dampner"
The engineering behind vehicle suspension is incredible, yet it's always evolving. Given that tyres and suspension, and brakes are three of the most important components in a vehicle that keep you on the road and alive, I'm glad it's continually evolving
As an Engineer that previously worked at one of the large Damper companies mentioned in this video I can say this is a fairly good run-down of functionality.... Should point out some pros/cons vs. various shock designs tho. Twin tubes are cheap to make, easy to valve etc so most stock and boring (think camry) vehicles use this design, also cheaper aftermarket stuff (as it's easy to make adjustable)... The pro is less piston rod (shaft) force, so your low speed choppy stuff is controlled very well (also why they're selected for non-performance applications). Reason being is twin tubes do not need nearly as much gas pressure to function properly because of the valving separating the nitrogen reservoir. The cons are tho your working piston is much smaller and thus can cavitate much easier, and overheat easier as well (you have a nice nitrogen wall to insulate it from the outside air). Hence they are very not good for trucks and off-road. They can also need to be installed in a specific direction or things aren't happy with nitrogen getting where you don't want it. Should also mention, they tend to be far less robust partly because of them being cheaper but also the small working piston/cavitation issues, and also are usually not serviceable. Mono-tubes obviously have the inverse in pros-cons, more expensive to make, harder to make adjustable damping, higher rod force and thus not great for small choppy bumps. However much better cavitation control (and thus can put more damping force in for the same size shock) better heat dissipation etc. And unlike the twin tubes they are far more robust, a good quality mono-tube can last well into the 6 digit mileage range and can even be rebuilt fairly easily due to the construction. In short, if you have twin tube shocks... they're probably not that good, mono-tube ftw :P.
Definitely will be getting some business as a result of your kindness and technical know-how I'm sure! Companies like you guys make the world a better and more fun place!
The bushing in the gland/cap is called a glacier bushing and is best removed by die-grinding the ID as thin as possible until you can get in behind it and collapse it. Collet puller also works but you tend to fight it all the way and if the gland is aluminum, you tend to score it
I never knew about all the shims inside of the shock. I have an RC car and its familiar to me that rocks chip/ding the shafts and then eat away the seals and oil leaks everywhere. Shock socks solved that problem, I wonder if they make shock socks for regular size vehicles too? Thanks for the in depth video Matt.
I rebuilt and resprung my motorcycle forks a few years ago and learning all about suspension was fascinating. It blew my mind that if you cut a spring, you make it more springy.
I love you for this. I had to struggle through learning how all this worked, but you broke it down in a really simple and informative manner. I will probably consult it later when I go back to dealing with shocks.
You explanation of the curves was so well said that I think I'll need to refer people back here when they ask me about my suspension products. Excellent video as usual
The adult in me wished I was able to get my head around how the more complex parts affected the shocks' characteristics, but I enjoyed all the puns so the child in me enjoyed this video
So I used to work in a small suspension shop that mostly did high-end road racing stuff, but we did some off-road too. One time we got this set of icons in where those two belville washers Matt mentioned that go on the compression side in place of the rubber stopper present on the Kings had completely obliterated themselves. It was like the shock had just extended itself inexplicably at Mach 2 and crashed the droop Spacer into the piston. Totally hilarious to pull apart a shock and see big chunks of metal fall out with the fluid.
We seem to be stuck with motoring folk calling dampers "shocks", when it's actually the spring (whether steel or air) that does the shock absorbing. The damper is there to control that motion and, especially the rebound. But then we are also stuck with the term "radiator", for what is, in reality, a liquid to air heat exchanger which primarily uses forced convection for cooling and not radiation. Coolant has somehow morphed into the stuff in a bottle (which is actually coolant additive), whereas it's really the liquid that runs around the engine block and various other parts to keep the engine from frying.
Great editing and pretty cool pictures drawn today bud, good job. Oh ya, thanks for the shock learning, kinda forgot already, but it was good while it lasted.
In the 80’s, if you used the term damper instead of shock, you were a Road & Track weirdo who bought sheepskin car seat covers from the ad section on the last few pages of the magazine. Also, we stood around the Nova with nods of approval as air was added through the schrader valves in the rear air shocks and the back end of the car “jacked up” for better “performance”.
At first, I found the contents of this video shocking, but then I rebounded and found that my surprise began to dampen, and I reached a harmonic equilibrium
What strikes me is how many similarities these high-end shocks have with the suspension spheres of classic Citroën´s. Maybe you should take a look at that Matt. In my opinion, every car gets better with hydro-pneumatics. Think about it, an off road Viper with a suspension called "hydractive". Yeah, you need that. I promise, you won´t loose any sleep at all over sphere pressures, stiffness regulators or solenoid activation thresholds. Ok, I can´t really promise that. But it´s an interesting way of loosing sleep though...
I love shocks. They've evolved into such a simple reliable design which still gives great performance. Unfortunately expensive as the machining needs to be near perfect for high end performance, but still reliable. The explanation was really quite good, hit all the important points. Though I do find digressive shocks mandatory for my purposes, they give a greater overall energy absorption and better handle a far wider range of speeds (at least on road which is where I live).
As someone who has exceeded the limits 7/8 of an inch icon shock shaft, 1 possible bigger problem is a very bent radius arm Caused by one very cool looking, But slightly misjudged jump.
Didn't bother watching for two days, thinking it would be boring and I know that stuff already. But, I was very wrong, and as it turns out, I know nothing and Matt's videos are very informative and equally entertaining.
Great video! I did not know how the shim stack works. You might like QA1 twin tube shocks. Easily rebuildable and the shim stack can be changed with out needing special tools. A small simple bladder floats in the oil. It reminds me of a potato chip bag. It works like a twin tube shock ..... oil and air do not mix.
I use a Fox shock in my prosthetic arm - revalved/tuned to suit by people smarter than me. Works great. High and low speed damping makes the elbow feel natural.... for a pretend arm.
Of course he makes a video about shocks when my Saab's suspension has just given up in life Keep making these videos man. They are awesome to watch as always
After having a basic understanding of shock valving and operation for close to 40 years, you finally helped me to really understand a lot more about them in 16 minutes -- Thank you!! Now, can you do the same thing for changing exhaust tones using helmholz resonators or whatever is required to give an LS engine a nice, high pitched exotic sound? It's probably "just" math and physics... Lol
I think a 'high pitched exotic sound' of a flat plane V8 from a crossplane V8 would be tough, cause of the 'burbly' firing order and the lower revs of a pushrod engine
A 180° header with a Y pipe will get you that high pitched exotic sound out of a crossplane V8. Here's a pretty good video about it: ruclips.net/video/AYrtPp-OuZw/видео.html
@@raoulrr Mainly I just want SuperFastMatt to make it understandable. Lol.. Honestly though, some Corvettes without flat plane cranks do have really appealing tone (to my subjective opinion) by having an X-pipe right after the collectors, and then a basic dual system after that. And then revving the crap out of them.
@@pedroosorio7916 I don't actually care for the 180 degree header sound on an LS. My friend had a pair on his LS swapped Porsche 996, and it was somewhat "exotic" sounding, but not really the scream I'm after. ALTHOUGH! His didn't have a Y-pipe to re-join the banks, but still, conventional long tubes into an X-pipe set close to the ends of the collectors is more to my liking than the 180 degree header sound.
Speaking of damping and using coilovers, if you want to have smooth up and down strokes it's very important to have a hardened shaft. Same for lubricating the piston before you insert it into the housing.
Turning the OD of the shaft spacer has zero effect on how anything operates. Maybe I King or Icon made their parts in China like Fox, they could afford to throw in useless operations to make people feel better about how much they spent.
I am one of those pedantic people that hates calling them shock absorbers (because they don't absorb shock, that's what the springs are for) but this is probably the best explanation of DAMPERS I've seen.
Matt! Great video, any day when I watch one of your videos is a school day! Thanks for entertaining, educating and sharing! Plus your sense of humour is brilliant!
Just curious how many other people have ordered shocks and when the package arrives you find a shaft has punched its way out of the box because they ship compressed with a retainer strap and in shipping the strap broke. This has happened to me on 3 separate occasions.
Complicate and thick subject, but definitely an above average content for YT! I'll rewatch it more accurately, there's some really in-depth stuff to learn here. Thanks Matt!
Piston shapes and shimstacks are a science on it's own, but there's a few other aprroaches around that work quite well. Checkout WP's Cone Valve front forks for example. Paul Thede from Racetech has a really good book on how shocks and suspension in general work, it is focussed on motorcycles but a lot of it applies on all suspension.
0:39 *No it isn't a shock absorber.* It is a damper. The shock absorber is the suspension spring . The damper controls the spring's movement and prevents oscillation.
The pan down from the fluid-stained worktop to the shelf… floor… shoes… jeans… t-shirt is comedy gold!
@@kruleworld His kid you mean? ToT is just a pair of hands after all
Release the schmoo!
@ 1:13
Ah yes, those times when you find that taking something apart is not in fact the ideal step 1. We love those times.
The ideal step 1 is to have taken one apart before. Which is why doing the second side of the car takes half the time of doing the first side.
I find myself taking the expensive way which is buying whatever I wanna take apart, and then buying a used one in bad condition, and taking that bad condition one apart and not worrying about breaking it. And then learn how and proceed to take apart the good one. Headlights are another story, since they’re either pretty easy and the perma-seal is pretty giving. Or it can lead to someone (me) buy 3 sets of 2 headlight. The first headlight I took apart was pretty easy and gave me a lot of courage, however that was the only easy one to take apart. After a lot of cursing and parents asking while I’m putting headlight housings in the oven, I got my retrofit complete. The Morimoto MLED 2.0’s in my car have been in for a little over a year, and they’re still going strong. I don’t really want to do that whole process again.
@@TwoScoopsofDestroyer Actually even more ideal would be to let someone else take theirs apart. Then learn from their mistakes.
And because of this fact I have long ago learned that 90 weight gear oil from an old transmission is one of the foulest odors I've ever encountered
Does it make sense to protect the exposed shaft with an accordion-pleated rubber gaiter?
I really really appreciate the graphical animations you provided with your explanations of fluid displacement, compression vs rebound flow and the varying roles of shims in the shim stack. HUGE THANKS!!!
Thank you!
seeing matt stroking his shafts brings a smile to my face :)
I've not watched the video yet - but I'm looking forward to seeing this :-)
We all love a good hard shaft.
🤢
ayoo 🤨
Making these videos clearly take a lot of work, it's smart to accept sponsors
Make him an offer he can't refuse...
The most entertaining "engineering" channel I have ever watched. I have genuinely learned more from this channel than tutorials
I've seen the guys at Lotus doing this stuff, and it's some sort of Engineering Black Magic. No matter how much I read, understand, it's amazing to me how people that really know this stuff can have a 5 minute conversation and then rip things apart and 30 minutes later completely change a car.
my brain hurts, the puns are flowing SHOCKINLY well and the off-road viper shall be glorious
:/
I hope you too enjoyed this with the maturity of an 8-year old.
@@althejazzman HEY!! is 8 as low as you'll go? I need to up my pun game then
@@kuma_score7536 It's Matt's standards as he announced in the video!
Spit coffee at "put shocks on your shocks" then the shots clip. Thank you, needed that😁
Bruh I needed something like this over 10 years ago- when I was learning to rebuild and tune motorcycle suspension, rebuild forks and rear springs...
Accutune rocked for my 3 linked toyota project. Their tech knew exactly the right questions to ask even for a guy without an engineering degree and basic construction tools to get the geometry "close enough"
A very successful open wheel engineer explained springs and shocks very simply: spring rate determines how far the wheel moves. The shock determines how fast it moves.
Great entertainment and excellent explanations as usual Matt. Thanks
Oh yeah, fun fact - in Australia , a mixture of 3 Cups of Self-Raising Flour, 1 Pinch of Salt, and a can of your favourite Beer, cooked over coals in a camp oven - is also called Damper
I've seen/heard the explanation as to how shocks do what they do before, but the visuals along with the explanation made it so much easier to comprehend! Thanks for another great video - All Hail the Algorithm!!
All hail the algorithm as well as the notification bell
HAIL! HAIL! HAIL!
Notification hell
The subscription, the notification and the holy algorithm.
ALL HAIL THE ALGORITHM!!
2:00 - What a perfect demonstration of bad shocks from "Uncle Buck"!!
@ 5:21 regarding heat treating. If the metal is 'case carburized' or surface hardened it will make for a hard surface that can be machined for a smooth finish. On the other hand a 'through hardened' part could be brittle.
Your videos are nonstop funny and educational! I appreciate your sense of humor
Dual damper per wheel setups won't work as intended unless both dampers are tuned to provide practically identical damping force curves, but at half the magnitude of what a properly tuned single damper setup. This enables the dampers to share the workload evenly, improving longevity and reliability, without messing up the suspension tune.
"Dampen" is also correct though as a verb for damp. You are correct about "Dampener", that'd be something to make something wet and that's where I largely see people make this mistake (calling a damper a dampener). But there are 2 definitions for dampen:
1. make slightly wet.
2. make less strong or intense
@SuperfastMatt
Those "beveled washers" are actually called Belleville springs and they are in more things than you think.
Another excellent video Matt - a complex subject explained in a way that even I can understand. Algorithm hailed 👍
If a shock company had a video that was as clear/info packed as this on their product page, I'd buy from them. The fact you use Keynote for this, even more insane.
I'm shocked. That was more informative than I expected, and you've put my expectations high.
Definitely one of the better shock videos on RUclips
thank you for the clarification of damper vs dampener, I have been using that illustration for quite some time, but I specify a squirt gun as the dampener,
you wouldn't believe how many people use the wrong term and argue that it is correct, even in NASA,
they even invent new terms like "dampner"
I learned more about shocks in 15 minutes here than I've learned in my entire life. All hail the algorithm indeed.
ive been waiting 15 years to learn how shocks work. thanks matt.
The engineering behind vehicle suspension is incredible, yet it's always evolving. Given that tyres and suspension, and brakes are three of the most important components in a vehicle that keep you on the road and alive, I'm glad it's continually evolving
As an Engineer that previously worked at one of the large Damper companies mentioned in this video I can say this is a fairly good run-down of functionality.... Should point out some pros/cons vs. various shock designs tho. Twin tubes are cheap to make, easy to valve etc so most stock and boring (think camry) vehicles use this design, also cheaper aftermarket stuff (as it's easy to make adjustable)... The pro is less piston rod (shaft) force, so your low speed choppy stuff is controlled very well (also why they're selected for non-performance applications). Reason being is twin tubes do not need nearly as much gas pressure to function properly because of the valving separating the nitrogen reservoir. The cons are tho your working piston is much smaller and thus can cavitate much easier, and overheat easier as well (you have a nice nitrogen wall to insulate it from the outside air). Hence they are very not good for trucks and off-road. They can also need to be installed in a specific direction or things aren't happy with nitrogen getting where you don't want it. Should also mention, they tend to be far less robust partly because of them being cheaper but also the small working piston/cavitation issues, and also are usually not serviceable.
Mono-tubes obviously have the inverse in pros-cons, more expensive to make, harder to make adjustable damping, higher rod force and thus not great for small choppy bumps. However much better cavitation control (and thus can put more damping force in for the same size shock) better heat dissipation etc. And unlike the twin tubes they are far more robust, a good quality mono-tube can last well into the 6 digit mileage range and can even be rebuilt fairly easily due to the construction.
In short, if you have twin tube shocks... they're probably not that good, mono-tube ftw :P.
Thanks!
Love it, thanks for taking the time to come down and hang with us for a bit!
Definitely will be getting some business as a result of your kindness and technical know-how I'm sure! Companies like you guys make the world a better and more fun place!
@@IanLikesVideosSometimes Thank you!
The bushing in the gland/cap is called a glacier bushing and is best removed by die-grinding the ID as thin as possible until you can get in behind it and collapse it. Collet puller also works but you tend to fight it all the way and if the gland is aluminum, you tend to score it
One of the best channels on RUclips. Educational and hilarious.
0:41 no, this is a shock damper. The spring is the shock absorber.
I never knew about all the shims inside of the shock. I have an RC car and its familiar to me that rocks chip/ding the shafts and then eat away the seals and oil leaks everywhere. Shock socks solved that problem, I wonder if they make shock socks for regular size vehicles too? Thanks for the in depth video Matt.
I rebuilt and resprung my motorcycle forks a few years ago and learning all about suspension was fascinating. It blew my mind that if you cut a spring, you make it more springy.
I love you for this. I had to struggle through learning how all this worked, but you broke it down in a really simple and informative manner. I will probably consult it later when I go back to dealing with shocks.
You explanation of the curves was so well said that I think I'll need to refer people back here when they ask me about my suspension products. Excellent video as usual
The adult in me wished I was able to get my head around how the more complex parts affected the shocks' characteristics, but I enjoyed all the puns so the child in me enjoyed this video
So I used to work in a small suspension shop that mostly did high-end road racing stuff, but we did some off-road too. One time we got this set of icons in where those two belville washers Matt mentioned that go on the compression side in place of the rubber stopper present on the Kings had completely obliterated themselves. It was like the shock had just extended itself inexplicably at Mach 2 and crashed the droop Spacer into the piston. Totally hilarious to pull apart a shock and see big chunks of metal fall out with the fluid.
This is a damper and a dampener. 😂. That’s one expertly engineered entendres.
We seem to be stuck with motoring folk calling dampers "shocks", when it's actually the spring (whether steel or air) that does the shock absorbing. The damper is there to control that motion and, especially the rebound.
But then we are also stuck with the term "radiator", for what is, in reality, a liquid to air heat exchanger which primarily uses forced convection for cooling and not radiation. Coolant has somehow morphed into the stuff in a bottle (which is actually coolant additive), whereas it's really the liquid that runs around the engine block and various other parts to keep the engine from frying.
Great editing and pretty cool pictures drawn today bud, good job. Oh ya, thanks for the shock learning, kinda forgot already, but it was good while it lasted.
Matt, your knowledge on this subject is as ideal as the gas law that’s ideal. The viper is going to be something special for sure.
In the 80’s, if you used the term damper instead of shock, you were a Road & Track weirdo who bought sheepskin car seat covers from the ad section on the last few pages of the magazine. Also, we stood around the Nova with nods of approval as air was added through the schrader valves in the rear air shocks and the back end of the car “jacked up” for better “performance”.
At first, I found the contents of this video shocking, but then I rebounded and found that my surprise began to dampen, and I reached a harmonic equilibrium
The writing of this script was funny as hell. I don’t think Chat GPT can emulate your creativity and comedy. Great edit too!
What strikes me is how many similarities these high-end shocks have with the suspension spheres of classic Citroën´s. Maybe you should take a look at that Matt. In my opinion, every car gets better with hydro-pneumatics. Think about it, an off road Viper with a suspension called "hydractive". Yeah, you need that. I promise, you won´t loose any sleep at all over sphere pressures, stiffness regulators or solenoid activation thresholds. Ok, I can´t really promise that. But it´s an interesting way of loosing sleep though...
As a mechanic who has had to work on suspension spheres on citroens
I wish the designers went to hell for creating them
@@Alucard-gt1zf It´s the best suspension ever. What faults do you think they have that I have missed over my 30 years of working on them?
I love shocks. They've evolved into such a simple reliable design which still gives great performance. Unfortunately expensive as the machining needs to be near perfect for high end performance, but still reliable. The explanation was really quite good, hit all the important points. Though I do find digressive shocks mandatory for my purposes, they give a greater overall energy absorption and better handle a far wider range of speeds (at least on road which is where I live).
Which shock brand do you generally prefer?
As someone who has exceeded the limits 7/8 of an inch icon shock shaft, 1 possible bigger problem is a very bent radius arm Caused by one very cool looking, But slightly misjudged jump.
Love the explanations. In my world of Audio, we also have people say things that stop materials from being "excited" are "dampened". 😂 It's "Dampered"
Didn't bother watching for two days, thinking it would be boring and I know that stuff already. But, I was very wrong, and as it turns out, I know nothing and Matt's videos are very informative and equally entertaining.
Such a great video, i've learned a lot. Thank you Matt
Awesome video! Very informative with some good ol' fashion humor, keep it up Matt!
Finally! Someone else who "appreciates" the difference between damp and dampen! If I hear one more person refer to "dampening fluid" ....
The difference between these two words has now been added to the part of my vocabulary where cement and concrete live.
I suspect "those" people use their shocks to "dampen" their "rims".
In Matt's case it was both.
Great video! I did not know how the shim stack works. You might like QA1 twin tube shocks. Easily rebuildable and the shim stack can be changed with out needing special tools. A small simple bladder floats in the oil. It reminds me of a potato chip bag. It works like a twin tube shock ..... oil and air do not mix.
I use a Fox shock in my prosthetic arm - revalved/tuned to suit by people smarter than me. Works great. High and low speed damping makes the elbow feel natural.... for a pretend arm.
I'd love to see a videos like this for other parts of a car. Maybe a transmission or something.
EXCELLENT video, as always guy -
Excellent shock video! You make the best videos in automotive content. Can't wait for the next one. Thanks Matt
The best video I have ever seen on shocks, hands down.
Hoping for a part 2 (3,4...) with a bit of track tuning!
Of course he makes a video about shocks when my Saab's suspension has just given up in life
Keep making these videos man. They are awesome to watch as always
I like the amount of work put in this..
After having a basic understanding of shock valving and operation for close to 40 years, you finally helped me to really understand a lot more about them in 16 minutes -- Thank you!!
Now, can you do the same thing for changing exhaust tones using helmholz resonators or whatever is required to give an LS engine a nice, high pitched exotic sound? It's probably "just" math and physics... Lol
I think a 'high pitched exotic sound' of a flat plane V8 from a crossplane V8 would be tough, cause of the 'burbly' firing order and the lower revs of a pushrod engine
A 180° header with a Y pipe will get you that high pitched exotic sound out of a crossplane V8.
Here's a pretty good video about it: ruclips.net/video/AYrtPp-OuZw/видео.html
8 into 1 headers should do the trick
ruclips.net/video/dKVRBFLDwsU/видео.html
@@raoulrr Mainly I just want SuperFastMatt to make it understandable. Lol.. Honestly though, some Corvettes without flat plane cranks do have really appealing tone (to my subjective opinion) by having an X-pipe right after the collectors, and then a basic dual system after that. And then revving the crap out of them.
@@pedroosorio7916 I don't actually care for the 180 degree header sound on an LS. My friend had a pair on his LS swapped Porsche 996, and it was somewhat "exotic" sounding, but not really the scream I'm after.
ALTHOUGH! His didn't have a Y-pipe to re-join the banks, but still, conventional long tubes into an X-pipe set close to the ends of the collectors is more to my liking than the 180 degree header sound.
20% like to view ratio in the first hour is a damn good sign of a solid following.
You know you can count on this information when he knows the difference between damper and dampener
Speaking of damping and using coilovers, if you want to have smooth up and down strokes it's very important to have a hardened shaft. Same for lubricating the piston before you insert it into the housing.
This video had a high infirmation density. Thank you for explaining it to this level.
Awesome! I need to show this to the suspension side of my Baja Sae team. Well thats if we can ever get a car built by comp 😂
I just learned more about shocks in 16 minutes and 15 seconds than I had learned in all of my 58 years. Great video!
Any guide explaining the difference between dampers and dampeners is a great guide.
Good to see you again, Matt. Catch ya' on the rebound.
Finally someone is showing the truth inside King and Icon shocks!! Cheap internals 4:34
Turning the OD of the shaft spacer has zero effect on how anything operates. Maybe I King or Icon made their parts in China like Fox, they could afford to throw in useless operations to make people feel better about how much they spent.
Thanks Matt for the entertainment. Always good for some laughs!
Best explanation of shocks ever. thanks
I am one of those pedantic people that hates calling them shock absorbers (because they don't absorb shock, that's what the springs are for) but this is probably the best explanation of DAMPERS I've seen.
Matt! Great video, any day when I watch one of your videos is a school day! Thanks for entertaining, educating and sharing! Plus your sense of humour is brilliant!
As usual, it's a great video. 👍 Thanks for sharing.
Just curious how many other people have ordered shocks and when the package arrives you find a shaft has punched its way out of the box because they ship compressed with a retainer strap and in shipping the strap broke. This has happened to me on 3 separate occasions.
Complicate and thick subject, but definitely an above average content for YT! I'll rewatch it more accurately, there's some really in-depth stuff to learn here. Thanks Matt!
Like "where tf my money is actually going for a 1200 bucks front fork by Ohlins?"
I just found your channel and have been binge watching. Excellent!! You remind me of This Old Tony but for cars! Keep up the great content!
Wow. Amazing explanation and graphics. Great work on this
Great job on the video Matt! Thanks for making it.
Everybody make sure to stick around for the ad at the end!
Many thanks for using the correct terminology when speaking of shocks (you said damper which is correct). Cheers!
I learned damp and dampen are two separate things today...
This is such a good video
great quality video! Learned lots of practical shocks knowledge today
01:08 - "So I gently pressed on the shaft into the body...." Waaaaaait for it.... Hahahaha Oh dear, you silly sod! Hahahaha
😎🇬🇧
Thank you explaining.
“Probably should have put the guard on the cut off tool for this one”
Me: YESS!!
One of the best ones yet! Great vid
Excellent, and easy to comprehending
Wow, it’s 9am here and I already learned so much, great video. Thank you 🙏
Piston shapes and shimstacks are a science on it's own, but there's a few other aprroaches around that work quite well. Checkout WP's Cone Valve front forks for example.
Paul Thede from Racetech has a really good book on how shocks and suspension in general work, it is focussed on motorcycles but a lot of it applies on all suspension.
Thanks Matt, really learned something today!
Had to pause and smash that like button when you hit on the difference between "damper" and "dampener"!
Man I love you. I've been scared to change out my front R6 springs for months now.
Love the frequent uploads!!
0:39 *No it isn't a shock absorber.* It is a damper.
The shock absorber is the suspension spring .
The damper controls the spring's movement and prevents oscillation.
All hail the lord of the OBVIOUS 😊😮😢
And a damper does?
@@FlattardiansSuck The damper controls the spring's movement and prevents oscillation.