The Ingenious Design of Airplane Tires- Jeremy Fielding 107

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Notes:
👉Mexicana Flight 940 - March 31st 1986
en.wikipedia.o...
👉Goodyear Aircraft tire maintenance
www.google.com...
Technical corrections
The Boeing 737-800 main wheels (the 4 rear wheels) are actually 44 inches making them just barely larger than the tractor trailer tire. Despite my research and having a second engineer fact check the video we both managed to miss this fact because the nose wheel diameter is 27" and mentioned in more places. The overall story is the same. The capacity of the airplane tire is many times greater than a truck... including the 27" nose wheel, but it was definitely worth mentioning that not ALL of the tires are 27".

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21 сен 2024

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Комментарии : 760

@Jeremy_Fielding Год назад

Technical correction: The Boeing 737-800 main wheels (the 4 rear wheels) are actually 44 inches making them just barely larger than the tractor trailer tire. Despite my research and having a second engineer fact check the video we both managed to miss this fact because the nose wheel diameter is 27" and mentioned in more places. The overall story is the same. The capacity of the airplane tire is many times greater than a truck... including the 27" nose wheel, but it was definitely worth mentioning that not ALL of the tires are 27". Unfortunately I can’t change the video now that it’s live. I also added this note to the description.

@JM-ho3qn Год назад

Mr. Fielding, another engaging, informative and well researched video. As a longtime subscriber, I find your videos to be some of the best on the topics they cover. Not only are they clear and concise, you deliver them in an interesting way. Keep up the great work!

@henryostman5740 Год назад

the mains support most of the weight and the plane lands on the mains, nosewheel landings are bad, even in small planes. main idea is that with six tires on a '37 the two in front don't carry 33% of the weight, probably about 10% so the four mains carry 90% and they do all of the braking since there are no nosewheel brakes (I believe that the 727 had these on some models). You might also exhibit the cages used when tires are inflated (they sometimes explode) and I believe there are videos of this actually happening, truck tires also explode and they sometimes use a safety cage for inflation. The brakes have to demonstrate the ability to stop the plane from takeoff speed at full load within a given distance without using reverse thrust (situation, an aborted takeoff at the last instance (V1) due to engine failure), this would involve stopping 150,000 #s going 150 mph within less than half a mile. When this happens operationally, the plane will normally stop on the runway while the fire crew stands by making sure the tires don't catch fire and the plane will have to wait a substantial amount of time before trying to take off again and might require a technician to check the brakes and tires before doing so. Don't sweat your error in tire size, this was a very good article. Thank you.

@Bobbywolf64 Год назад

Also, the fuesable plugs are in the wheels, not the tires as you say in the video, Minor nitpick I know. Great video regardless. On most if not all aircraft, there is very little weight on the nose wheels. This is a problem for many aircraft. In fact, certain aircraft with tail mounted engines have been known to tip backwards just from the weight of snow from a storm.

@Mad.Man.Marine Год назад

Love your videos man. Your a natural !!

@Terkinstein Год назад

@@henryostman5740 I work @ Miami International turning wrenches on pretty much all the big girls except the '77 and '87. we do tons of Airbus A319,20,21 I was on a team for a while travelling around the country doing A320 Gear swaps and of course we gotta remove the tires for that job. I always love the teamwork involved in UP-Jacking the craft. absolute focus is crucial, as I have witnessed a jack slip, oh boy, Nooooo BUENO

@AdonisNesser Год назад

Hard to imagine the hours put into the engineering of every component of an airplane, and how mundane it's become to ride them

@pheargoth Год назад

It's all that engineering that's MADE the ride mundane, if you get my meaning. A mundane airplane ride is exactly what you want!

@rodneyfox5566 Год назад

As someone who has worked in the industry most of the problems where solved "trial by fire" style and on some parts or systems were physically paid for with human life! ie test pilots. Check out the full final catches the wire😥

@rodneyfox5566 Год назад

☝F4U auto correct

@pufthemajicdragon Год назад

Mundane? Speak for yourself :D I get excited like a little schoolgirl every time I fly - nose pressed to the window with goofy grin and making the passengers next to me uncomfortable with all my giddy chatter.

@Elrog3 Год назад

@@rodneyfox5566 Trial by fire is the last resort. Its just bound to happen with machines this complicated. At least the aerospace industry does a good job of learning from it rather than letting things stay broken.

@joereedmusic9853 Год назад

As a retired Aircraft Engineer and Instructor I just like say that was a very good lecture on the dynamics of aircraft tire systems vs automotive. Well done.

@Terkinstein Год назад

Hey joe, where are you from? I heard you sing your song "I bought the shoes". great song by the way, I hear your voice and I think FL.

@trex2092 Год назад

I am a Retired USCG Aircraft Mechanic / Flight Crewman. I worked the Tire Shop at one of my assignments and built up and balanced hundreds of jet and helicopter tires. Thank You Jeremy for diving into this very critical component of flight. BTW we flew on the same aircraft we worked on and if we broke down some where we just called "Home Plate" and they shipped / delivered via another aircraft to us the parts we needed to fix our aircraft. We performed ALL the repairs and Maintenance on our aircraft. There where no outside Repairman to call, we was them. Keep in mind the HC-130 can taxi over sand, like in sand dunes type sand with a lower tire pressure on the mains (100psi) and still have a takeoff weight of 165,000 lbs, think of an elephants foot vs. a goat's hoof.

@SeanBZA Год назад

Yes, but you also have a lot more wheel assemblies to allow that operation off of unimproved surfaces. I have seen pilots scrub every one of those wheel assemblies to replace level in a single landing, thankful I was not the one changing them. My next door shop was the wheel bay, he had his own nice little armoured room, far from everything breakable, where he would do the first fill of any wheel assembly. Concrete walls and floor, and armoured door, but frangible roof so the blast would go up. Just like the armourers had a similar room where they would fuse munitions, for the same reason. Armourers had the best door gargoyles though, recovered practise bombs that were mostly intact, though the 1in steel case had split open and become more or less flat.

@AppliedScience Год назад

I had no idea aircraft tires are electrically conductive. Really cool episode!

@Jeremy_Fielding Год назад

Thank you!

@SeanBZA Год назад

Lots of carbon black in the rubber, and till recently carbon loaded grease in the bearings, so they will not have arcing with the discharge. They have changed the grease formulas as well, so as to add in molybenum and other anti wear additives as well, to reduce the wear from the carbon on the bearing surfaces. The straight carbon loaded black grease is suprisingly abrasive, due to the carbon in it, but you do need a conductive grease that both will not build up, but also allow the bearings to spin freely at high speed, even with massive shock loading and temperature swings. Hard act to do, so there are a lot of specialty greases used by each manufacturer, all slightly different, and not always interchangeable

@nkronert Год назад

Jeremy, you are a fantastic ambassador for the discipline of engineering! Your enthusiasm is a great motivator for kids and adults alike to get curious about what makes our modern way of living possible. I hope there are many parents who watch your videos together with their kids in order to get them inspired to solve the issues that this same modern way of living is causing right now. Keep up the good work!

@swnorcraft7971 Год назад

Amen.

@MikeHammer1 Год назад

My dad is a retired TWA mechanic. As a young teenager, he took me to work at JFK airport (sadly that is something no child will likely ever experience again). One of the things he showed me was the huge hydraulic jack used to change tires and brakes. I also sat in the FO's seat while he started the engines on a 727 and taxied it over to the terminal from the hanger.

@calebcourteau Год назад

You have the most calm, relaxing presentation style. I’m an engineering student and really appreciate your efforts to educate us about the field.

@tachtruth Год назад

Couldn't have said it better, the unassuming personal approach resonates well to old pro's as well as young students.

@carlosanvito Год назад

When I was in engineering school (a million years ago) our Dean hijacked one our our lectures and asked us a single question: "You've been in university for several years, can you tell me, what is an engineer?" After listening to our responses for an hour, he said "You told me what an engineer DOES, but not what an engineer IS." After a few minutes he answered his own question: "An engineer is someone who does something 'just right'." He then elaborated about how engineers always have to balance conflicting drivers to achieve an optimum balance. Not maximum, but optimum. He was right. That was one of the most important lessons that I learned and that I applied over a long career in heavy industry. Now, I'm enjoying a second career as an associate professor, and you can be certain that I tell my students that same story and repeatedly remind them that engineering is all about compromise and optimization. Thank you for your videos - they are well researched, well presented and entertaining as well.

@sidharthbatchu6128 Год назад

By the end of each of your videos, I feel galvanized, thanks Jeremy

@RayMrRobert Год назад

Love you Jeremy. You talk in hard cold facts that people can understand.

@BlaqRaq 6 месяцев назад

I can't believe you haven't yet hit the 1M subscribers. You have well researched, accurate, and interesting contents. I was an aviation maintenance engineer for 15 years and you did hit all the points. I also admire your demonstrations and the length of the video.

@josephsookraj5582 Год назад

Happy little fella peering into the engine,Thanks for the nitrogen explanation

@mythosallen32 Год назад

As a bombardier A/C mech. I appreciate your video. Very well explained.

@hgbugalou Год назад

Oh man, aviation and engineering. I love it.

@AnotherPointOfView944 Год назад

Thankyou Jeremy. I wait for your content everyday.

@nathanielhart2846 Год назад

Your curiosity, capacity to learn, and earned brilliance is truly amazing. Great stuff, sir. Thanks for expanding others’ knowledge, such as my own. P.s. I had to edit, to include your ability to simply convey complexity. Good stuff.

@mrarby9780 Год назад

I'm an aircraft mechanic of 4 years and didn't lnow the tires were conductive, learned something new , thanks Jeremy

@Mike_Engel Год назад

Love how you break things down... Love to see you and Justin work together again....

@sacrificialrubber779 Год назад

The channel I didn’t know existed but I have to watch now!!!👍🏻👍🏻👍🏻👍🏻👍🏻

@Deanriley 28 дней назад

Really enjoyed learning about airplane tires. Flying will never be the same.

@sjhall2009 Год назад

Got a big Smarter Every Day vibe from this video. You guys are awesome!

@mikenew5380 Год назад

New favorite engineering channel!

@digitaldazzle5836 Год назад

This was really awesome! This is exactly why I love RU-vid

@johnschneider4160 Год назад

Wow! What enlightenment about something that we take for granted, or, simply, have no idea of what engineering goes into the process.

@bmacdoug Год назад

Love your passion and enthusiasm. You are indeed a great ambassador for engineering.

@BK-qp8zp Месяц назад

I don't know why your video ended up in my feed, but I absolutely enjoyed it.

@josephdestaubin7426 Год назад

Its the landing that gets me. It requires amazing coordination had a great deal of skill to boot. It's the systems engineering that I see in the landing.

@JevonWright Год назад

I love the idea of a series focusing on the incredible engineering of flight! Yes please!!

@brandonmack111 Год назад

It's amazing how much thought and engineering goes into even the simplest-seeming parts of pretty much anything. Thanks for the video - it was very interesting!

@jonkirkwood469 Год назад

I once walked beneath a 747, toward the terminal at Frankfurt. We didn't have a gate because we aborted our final at about 400 feet, flew to Koln, fueled, returned to Frankfurt. After putting the 747 through its paces safely getting out of the pattern, the pilot calmly informed of us why we aborted (aircraft on the runway), that we were low on fuel after flying from Johannesburg, and heading to Koln. Love those matter-of-fact German pilots. We disembarked on a stair truck in Frankfurt and walked beneath the wings because it was pouring freezing rain when we arrived. A Lufthansa mechanic noticed me marveling at the aircraft. He gave me a quick tour of the main landing gear and the gear stowage as security hustled us toward the terminal. I felt like a kid. Best flight of my life. The things that pilot did with that massive aircraft amazed me.

@dumbassloser Год назад

When I was in the Navy our C-9s had a "grounding strap" between the nose gear wheels. It was a strip of thick rubber with a woven steel belt layered in it. When the nose gear touched down the path to ground completed. There was always new steel to touch the ground due to abrasion. When it got almost too short it was replaced. It was about 1 1/2" wide. The bolt holding it to the gear was in contact with the steel belt and threaded directly into the gear. Elegantly simple and cheap design.

@jeffayoe7468 Год назад

This video is so carefully made. I love it!

@comcfi Год назад

I’m an airline pilot but had no real appreciation for the design of the tires until this video. Thanks for this.

@CollinWillson Год назад

Jeremy, I work at Michelin as a maintenance technician. One of our machines makes Avion Tires, there are so many difference between Road and Avion Tires, just the wire alone goes from braided wire to solid wire. And instead of 2-3 packages of it on each side, you can have 6-8. They have to handle the force of a earth mover but go the speed of a race car. Great video!

@mrsgbee8246 Год назад

I always wondered about those little tyres and how they take the rigours of landing planes. Very interesting, thank you, for the answers and engaging way you relay them.

@Guardian_Arias Год назад

the irony is that those tires can't handle the high speeds cars are capable off. About 170 mph they can start to rip apart. most commercial and military acft land around 120 to 140 mph so there isn't a need to increase the cost to cover much higher speeds than that.

@1geisterfahrer Год назад

I work for an automotive plastics manufacturer in the testing lab. We make nothing so critical as an airplane tire, but the level of scrutiny applied to mundane parts such as trim pieces is incredible. I cannot imagine the testing required for aircraft parts.

@mtkoslowski Год назад

Wonderfully presented. Thank you.

@dantower8268 Год назад

Yes! I love that moment at takeoff when you lift off the ground

@tomgibson8774 Год назад

As a former aircraft mechanic of private aircraft I always enjoyed working on airframe structures, repairs etc. Maybe an idea for this continuing series would be how airframes are designed to be lightweight yet strong. Monocoque and semi-monocoque design, ribs and stringers with the thin sheet metal overlay. Just a suggestion. Enjoy all your videos and your enthusiasm for engineering! 👍

@PowerkickBoxers Год назад

brilliant man, great research and presentation. If you were a teacher at any level, you'd be everyone's favorite life changing teacher!

@chance1986 Год назад

Never thought about this aspect of aircraft design before. Thanks for explaining all this. Great video.

@greensleeves8095 Год назад

I love your enthusiasm.

@SpyCactus Год назад

I love the way your mind works. Thanks so much for sharing

@equalizer1553 Год назад

Dang this channel is actually great. Refreshing style my dude. And actually intellectually legit!

@m.sawmill3136 Год назад

Proud of your channel!! You did well..

@scottjones462 Год назад

Jeremy, another excellent discussion One point I would make is the distribution of the weight on the mains vs the nose is significant. In the A/C I work on the BOW is around 50,000lbs the mains carry about 23-24 k lbs and the nose about 4-5k lbs when on the scales for weight and balance calculations. Nose tires about 120 psi and mains 200 psi we only use dry nitrogen to service. I love your passion keep up the good work

@Jeremy_Fielding Год назад

Agreed. There are other details like this I left out on purpose. For example tires that don't have brakes aren't "required" (according to the 1990's report I show in the video) to use nitrogen but I felt like I reached a point where too much detail made it less interesting and harder to follow.

@scottjones462 Год назад

@@Jeremy_Fielding thanks Jeremy you do a great job I’ll stay out of your editing room!!

@Jeremy_Fielding Год назад

@@scottjones462 I love nerdy details LOL

@hubrigant Год назад

I think a video about the battery fires in the early 787 flights. In addition to the engineering challenges you mentioned, the 787 added in complexities in the design and manufacturing processes. I've been fascinated by this, and other lithium battery failures ever since we studied the 787 fires in college.

@bumstudios8817 Год назад

Thank you for this video, I appreciate the time you put into this! Your videos should be shown in schools, educational but also get people to think in an entertaining way also! Thanks

@steveskouson9620 Год назад

Destin from Smarter every Day. Mark Rober, from Sunnyvale. steve

@michaeldautry Год назад

A&P mechanic here saying this video is legit. Just subscribed, great video and best of luck. 👍🏻👍🏻

@Matt_10203 Год назад

Majority of the loading on the 737 is dispersed through the main gears as they are placed close the the CG. The nose wheel isn’t carrying nearly as much and is much smaller than the main landing gear tyres.

@jc5495 Год назад

737 also have their tires still exposed while in the up position as they found it cheaper and lighter than to have doors

@TheFalconJetDriver Год назад

I agree but you can’t imagine the amount of abuse a new FO puts on Nose wheels when first introduce to the 73! 😁🛫

@Cartier_specialist Год назад

Very fascinating subject. It would probably also be fascinating if you did a series on the engineering involved with top fuel dragsters and funny cars. The tires they use are pretty incredible as well.

@Zippo_1234 Год назад

Interesting video. Your explanations are excellent, very accessible for a wide audience.

@rickblackwell6435 Год назад

As a lifelong aviation enthusiast, I had no idea .... great info.

@eugenetswong Год назад

Thank you for telling us about the tires.

@billwalck1324 Год назад

I had a piece of equipment one time that had airplane tires on it. They were 32 ply, and the sidewalls were over 2" thick. They were also rated at 200 miles per hour.

@gerardmoran9560 Год назад

Great video! Great to see your son shares your enthusiasm. Heavy jets have higher speed ratings for their tires. The speed rating is marked on the tire. Strangely, all speeds for pilots and ATC are in knots (nautical miles per hour) but the tire speeds are marked in statute mph. Most of the 737s I've flown had 215 MPH tires while the heavier jets I've flown (767-332ER) had 235 mph tires. In the 767 at max weight you would normally liftoff close to V2, about 170 kts or (170X1.15= 195 mph) so there's a good margin in case you need to perform a partial or no flap landing with higher approach speeds. Finally, another benefit of higher tire pressure is hydroplaning. The types of hydroplaning are viscous, reverted rubber and dynamic. Dynamic hydroplaning occurs with water on the runway and it's 8.7 times the square root of the tire pressure for speed in knots. A 200 PSI tire will hydroplane at about 123 knots. For statute mph a good estimate is 9 times the square root of the tire pressure so a 38PSI tire will hydroplane at about 55mph. Cheers

@DavidKutzler Год назад

You should consider a collaboration with Grady from the Practical Engineering channel. He's more of the civil engineering side of the profession, but it might be interesting to talk about how the two engineering disciplines interact.

@BariumCobaltNitrog3n Год назад

It made me sleepy reading your comment ; ) because Jeremy connects with a smarter, more intense crowd like Destin in his collabs. But I'm sure you've seen the baseball cannon.

@HH60gPaveHawk Год назад

I think this would be a really good collab. Most of the reason they these tires can be engineered the way they do is the enormous engineering that goes into airfield pavements. I do airfield engineering work for a living, and even if you could get the same tire onto a semi ignoring the changes in how the tire is used, the road would just disintegrate below the truck. Military airfields are routinely 16” of the highest strength concrete available. I think a practical engineering collab on that side would be so cool.

@HH60gPaveHawk Год назад

@bernonic Год назад

just want to commend you on your willingness to work hard to convey ideas - I didn't know that I cared about airplane tires until now - cheers

@irvingestave6903 Год назад

You do such a great job without talking over people's head. So understandable for the lay person.

@donny_bahama Год назад

One of the absolute coolest videos I’ve ever seen! I’d never given this any thought whatsoever and now… mind blown!!! Thank you, Jeremy, for bringing us the amazing kind of content that no one else could!

@NH-jm9fq Год назад

Such a great video. So well communicated and researched. You have a great gift for teaching in this short doco style. Fan from Australia

@davidbenson8127 Год назад

Great video, and a great example of how small details can matter a lot under certain circumstances.

@diamondDave8845 Год назад

Great video. My physics teacher told us an interesting related story: a bunch of aerospace engineers were in a conference room trying to solve their problem of big A.F. Bomber tires that kept blowing out cuz they couldn't spin up to landing speed without damage. They were discussing prespinning the tires with rockets, gearing, etc. A janitor had come in, listened to the debate for a minute, and finally raised his hand. "Instead of a few big tires, why don't you use a bunch of small tires?" He said. The engineers slapped their foreheads with glee and relief and made him an honorary . . . something.

@nickpepper4592 Год назад

You reached your goal. My brain is asking so many questions.

@dannynone2784 Год назад

Great video. You are a wonderful teacher!

@paulfaulkner6299 Год назад

I enjoyed your film, Jeremy. Thank you for making it.

@BigMikeECV Год назад

Fascinating topic! I learned a lot from this video. One thing that comes to mind about tire size is rotational inertia. It takes less energy to get a small tire spinning than a large one. That suggests it takes less friction on landing to get the tire spinning.

@AlanShirtsink Год назад

Love listening to your explanation of things

@supergarbonzo4843 Год назад

I'm looking forward to following Along on this one I love this channel thank you Jeremy my best to you and yours God bless

@mattcero1 Год назад

I have a B.S. in engineering from Purdue and went on to get a commercial rating in fixed and rotary wing aircraft after flying in the Navy. I gleaned good new information from this video. Great cadence and very well done sir. One of the greatest stresses on these tires is when they're turning at very high weights while taxiing for takeoff i.e. huge side loading. One tidbit of information I can mention to add value to this is that dry air is more dense than humid air. Yup, read that again, it's true. The airlines will retread the carcass of these tires up to four or five times once cord starts to show then it's time to "lease" a new copy as I'm pretty sure the operators lease them and don't buy them. Perhaps the airline tire business could be your next enlightening video (hint, hint, cough, hint). Thank you.

@kkall0602 Год назад

You sir have an incredible ability to explain very technically advanced subjects! Thanks for another great video!!!

@asmerawi3680 Год назад

You are very passionate and gifted … kept up :)

@paulvonrentzell5189 Год назад

Very well done…..says the science teacher

@sreginkc Год назад

Another interesting design of airliners is the windshield. Very different from your car because of safety and purpose. Pressurization and temperature differences make them amazing. Thanks for your informative videos.

@kamauwikeepa7308 9 месяцев назад

The whole construction amazes me tyers wings the lot.

@gottasay4766 Год назад

I’m looking forward to the series you creating!

@Friedbrain11 Год назад

I'm with you on the takeoff...love the angle and the gentle push against me as the aircraft leaves the ground. I never saw a tire that ran under 100psi when I was OTR driver.

@walterbates1654 Год назад

Feeding the RU-vid algorithm. Great video.

@bobjohnson8970 Год назад

Wow! Great information on a subject I never gave thought to. Thank you for a great presentation.

@KylePezzolla Год назад

came here via Tom Scott's newsletter, thanks Tom!

@Jeremy_Fielding Год назад

That is awesome! Thanks for letting me know.

@daser99 Год назад

Excellent video. One small correction about grooves (around minute 6:15): the longitudinal grooves are there mainly to prevent the lateral sliding of the airplane when landing in crosswind and thus rapidly realign the airplane axis with its direction of travel (= the runway.) As you already shown, the weight of the airplane generates 10 times or more pressure on the tarmac, than a regular tire applies on the road. This is usually quite sufficient to break water, slush or even a small amount of snow, so counter-intuitively, aquaplaning is not a great concern (at least for the heavy planes.) An additional common procedure is to land a little bit "harder" on a wet runway. So, oblique grooves to pump the water out of the way are not necessary. This also increases the contact patch with the ground, therefore the effectiveness of breaking, as you show in the comparison with the dragster/F1 tires. Your passion is infectious, and the presentation is compelling. Congrats.

@mikeyb7263 Год назад

I used to work in the tire manufacturing industry. The plant I was working in did not manufacture airplane tires. I had only been there for a short time when it occurred to me to ask why we didn't make them. To my untrained eye, they didn't look that different from the passenger car and light truck tires that we made. A senior manager told me that airplane tires are made in plants that are designed exclusively to make them and rarely, if ever, do they manufacture other types in those plants. In his words "there is a whole different level of engineering" that goes into their manufacture and "a ridiculous amount of regulation " that must be managed for the plants that are certified to make them. Nice to know when flying down the runway!

@Oddman1980 Год назад

Engineering is fractal. No matter what object you have, every single part of it was engineered, and every single part that went in to those parts was... all the way down to the base materials themselves.

@blackdog9622 Год назад

Great content, and well presented. Ty for your willingness to share your skills and gifts.

@OwenEDell Год назад

Wow. I had no idea! What a great video. Thanks so much!

@dantower8268 Год назад

Most interesting video about something I see all the time but have never thought about that I've seen in a long time!

@pufthemajicdragon Год назад

If you want to do a series on airplanes, I REALLY hope you connect with Captain Joe. I love his channel and he does some really cool videos on airplane engineering as well. There is a lot of overlap and it'd be so great to see you two getting airplane nerdy together on screen

@Robert-xp4ii Год назад

Fascinating man and adorable little man. I love intelligent people and this guy brings it every time. Love this channel and would proudly support him as a patron just as soon as I catch up from 3 years of being off work for medical crap. ❤️

@kylereece575 Год назад

I've always loved the landing part . 😅

@kenelliott8944 Год назад

Excellent explanation! Loved it!!

@donazzopardi8747 Год назад

I didn't know! Now I do! Thanks!

@SimonHerrgard Год назад

Thanks for a great video. I work as a aircraft mechanic on the 737 and really appreciate the video. Almost spot on.

@acep1lot121 Год назад

Should look into the engineering that goes into the titanium compressor blades and how they are designed to survive in environments that are hotter than the melting point of Ti.

@nothingtoseehere4026 Год назад

I'm with ya Jeremy. I own a light twin and I'm still amazed at what the landing gear and tires can handle even on a small scale.

@bikepacker9850 Год назад

Mate...u r awesome. You made plane tyres interesting.

@brw3079 Год назад

Fantastic video, as always. You're the best.

@jimsvideos7201 Год назад

You'd get a kick out of aircraft certification tests: Max weight, tires and brakes worn to limits, minimum allowed tire pressure, down the runway to takeoff speed, max performance brake-only stop. Five minute wait until the firefighters are allowed to do anything. It's pretty wild.

@almacdonald2506 9 месяцев назад

Good video, thanks. A side benefit to higher tire pressures is the increased speed before it hydroplanes. And while the tires must support the weight of the airplane, we have all been on landings that just slammed into the runway, so temporary higher loading. If there is a stiff crosswind the tire takes large side loading. Like you said, incredible tire design.

@grantschoen1726 Год назад

Awesome video! One other consideration for the lower pressure & more flexible tires of automotive is that the tires are also a part of the suspension system of the car, and the lower pressures allow for more deflection on impact with bumps, potholes, etc. giving it that "smoother ride" you talked about. I'd love to see a video on the engineering behind the landing gear!! Looks like some wicked linkage systems, hydraulics, etc. you could nerd out on!