How NASA Reinvented The Wheel

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  • Опубликовано: 23 ноя 2024

Комментарии • 8 тыс.

  • @Fozzdaddy12
    @Fozzdaddy12 Год назад +8951

    As an engineer I’ve known of nitinol for a while, did some labs with it in college. But I never saw the example of bending the nitinol pipe in half and have it return to shape. Awesome material

    • @thesmarttirecompany
      @thesmarttirecompany Год назад +194

      it's super cool to feel in person. that hot/cold effect is even more than you'd think (check out the facial reactions in the video)!

    • @onyx3019
      @onyx3019 Год назад +84

      hell yeah we use it dentistry and are also taught all about it ,especially for root canal instruments and for braces and orthodontic appliances.. but just like you never knew it was used in so many different ways ,crazy that all these fields have this material in common

    • @harpintn
      @harpintn Год назад +13

      I first read about it in the late 70's

    • @slav_K0
      @slav_K0 Год назад +7

      @@thesmarttirecompany For how long does the bent part stay warm?

    • @thesmarttirecompany
      @thesmarttirecompany Год назад +25

      @@slav_K0 if you are holding the tube like in the video, the heat will linger for a while (really it's your hand holding on to it). Otherwise it would dissipate into the air if it were held in place. However, for a tire rotating at high speeds, there is not really any time for the heat to escape, which is perfect because we get to "recycle" that heat energy instead of turning it into waste heat.

  • @sv8765
    @sv8765 Год назад +3369

    I love that these 2 engineers are so happy with their work, they look genuinely happy.

  • @GillyTech
    @GillyTech Год назад +1979

    I discovered a congenital defect in my heart at age 34. It was a penny sized hole in the two top chambers called the atria. They used a nitinol device to close the hole and allow heart lining cells to grow into it. This stuff saved me!

    • @MorganMadej
      @MorganMadej Год назад +79

      That is Fantastic! You are a living example of High Tech Heart!

    • @johanmetreus1268
      @johanmetreus1268 Год назад +55

      Glad they caught it in time, required my sister a stroke at the age 27 to find out she suffered the exact same problem.

    • @GillyTech
      @GillyTech Год назад +31

      @@johanmetreus1268 yes that’s really unfortunate and I hope your sister is doing better now. I too had a minor “mini stroke” called a TIA when I was about that age but didn’t report it as it only lasted a few minutes. More people should be aware of this condition and screening when you’re young is extremely simple.

    • @calimalu79cali11
      @calimalu79cali11 Год назад +1

      Are you on any blood thinners or just aspirin? Always wondered when it came to heart application and age.

    • @GillyTech
      @GillyTech Год назад +13

      @@calimalu79cali11 matter of fact I’m on no meds at all. Aspirin for the fist 6 months then nothing 👍

  • @valkyrie9729
    @valkyrie9729 Год назад +1026

    They use this metal in orthodontia too. The wires for braces are made out of this. They are “programmed” as the parabolic shape that the orthodontist wants, then bent and tied into the braces. The heat of the mouth (aka your body heat) makes the wire “want” to return to its original shape, thereby pulling your teeth into the proper position! I was amazed when my orthodontist showed me this, it was super cool to see as a kid.

    • @asherandai2633
      @asherandai2633 Год назад +44

      Wait... so why when I had braces as a kid did they need to constantly be tightened and adjusted? Or is it a newer thing in orthodontics?
      Edit: Also my teeth wanted to return to their original position as well... 5 years of braces and retainers did nothing!

    • @koffing2073
      @koffing2073 Год назад +22

      @@asherandai2633 because its obviously a new tech

    • @lukeporter6321
      @lukeporter6321 Год назад +83

      @@koffing2073 Imagine thinking everyone knows about all technology and when it was created and used. He asked a question because it wasn't obvious to him.

    • @rawmakers
      @rawmakers Год назад

      @@koffing2073you’re obviously a d-bag

    • @nickcunningham6344
      @nickcunningham6344 Год назад +9

      @@koffing2073 obviously not obvious to everyone

  • @Eyerleth
    @Eyerleth Год назад +867

    I had NiTiNOL wires in my orthodontics as a teenager. They worked to slowly, continually push the teeth into their new positions, rather than needing painful tightening every couple of weeks. Quite an impressive material!

    • @RayMusic88
      @RayMusic88 Год назад +23

      That's cool! Do you remember if they cost more than regular wires?

    • @teeanahera8949
      @teeanahera8949 Год назад +7

      What do you mean “to” slowly? Surely not too slowly as that would be a criticism of them. You meant they worked slowly.

    • @potterfanz6780
      @potterfanz6780 Год назад +119

      @@teeanahera8949
      They worked to slowly, continually push the teeth
      =
      They worked to push the teeth

    • @mycondolences8708
      @mycondolences8708 Год назад +63

      @@teeanahera8949 they worked to slowly and continually push to teeth into their new positions

    • @gio3061
      @gio3061 Год назад +57

      ​@@teeanahera8949 I worked to swiftly and definitively get you back in school, to improve your English comprehension.

  • @astigstudio
    @astigstudio Год назад +2347

    Veritasium videos are the type that don't need any fancy high pace over energetic editing needed. I will watch the video all through out no matter what

    • @mantrachhaya6835
      @mantrachhaya6835 Год назад +27

      For real man !! I wait eagerly for a new video from veritasium, and untill a new video comes i visit the old videos, or watch old Vsauce videos,

    • @rokochoco6152
      @rokochoco6152 Год назад +3

      they need comment bots though

    • @falconerd343
      @falconerd343 Год назад +2

      I watch it all the way through, but I have to do it at 1.5 speed...

    • @personrod2973
      @personrod2973 Год назад +1

      @@falconerd343 godamn you guys have some real attention span problems

    • @sleepingduty2987
      @sleepingduty2987 Год назад

      Jhonny Harris: why attac me?

  • @matijakruhoberec
    @matijakruhoberec Год назад +24

    These types of videos is what keeps me going through mechanical engineering school. Seeing things I learned about being applied in real world situations, but also reedeming the knowledge I gained and thought was useless during materials courses.

  • @jnmharris
    @jnmharris Год назад +601

    I did a report on nitinol in 8th grade science...41 years ago...nice to see this video explain its properties even further. Cool!!

    • @RC_Engineering
      @RC_Engineering Год назад +11

      It's sad that it's never found widespread usefulness.

    • @rl6382
      @rl6382 Год назад +35

      ​@@RC_Engineering it just did

    • @RC_Engineering
      @RC_Engineering Год назад +4

      @@rl6382 where?

    • @rl6382
      @rl6382 Год назад +34

      @@RC_Engineering they literally mentioned multiple sectors that are implementing this material for upgrading current systems... did you not watch this video?

    • @RC_Engineering
      @RC_Engineering Год назад +45

      @@rl6382 oh I see. Youre mistaking the possibility of niche uses for actual widespread use.
      They've been theorizing uses for 40 years, yet when you look around do you see this material on a daily basis?

  • @ExtremeBirdTypography
    @ExtremeBirdTypography Год назад +803

    The plane with the vortex generators was the coolest part to me. Seeing them flip up and down due to the heat was awesome.

    • @georgefragiadis1378
      @georgefragiadis1378 Год назад +9

      Nasa and Boeing studied also chevrons with shape memory alloys, bending towards the flow of the jet exhaust when taking off or landing to reduce noise( by introducing mixing vortices) and straighting the chevrons out of the flow when cruising to increase performance

    • @SonnyKnutson
      @SonnyKnutson Год назад +2

      @Pronto Was thinking that too. Maybe some extreme temperature countries would cause issues here. I mean the air higher up is cold but it might not be colder than some of the coldest places on earth?
      Or similar with warmer air at ground level.

    • @princejangra1231
      @princejangra1231 Год назад

      @@SonnyKnutson exactly

  • @dark_dar
    @dark_dar Год назад +603

    I love the excitement and positive energy from all those engineers! They’re really happy to show their work.

    • @thesmarttirecompany
      @thesmarttirecompany Год назад +30

      We genuinely love what we do and hope to have a major impact in the future!

    • @Primaeva
      @Primaeva Год назад +1

      Well, they were given license to break the core tenet of every unimaginative boss and risk-averse superior ever, I'd be pretty stoked too!

    • @tntTom174
      @tntTom174 Год назад +3

      welp I'd be hyped too working with magic metal everyday, damn wizards right here

    • @Amu_LEGEND
      @Amu_LEGEND Год назад

      @@thesmarttirecompany someone just made a brand new account just to reply to the comment 💀💀💀

  • @iLLadelph267
    @iLLadelph267 Год назад +18

    21:34 shots like this really communicate science fantastically. "put your full body weight on it" you can see Derek physically interacting with the thing and playing with it like any student might

  • @calvinyoung480
    @calvinyoung480 Год назад +400

    Shoutout to all the amazing folks at NASA GRC's SLOPE Lab in Cleveland! I had the privilege of interning on this project and can't speak highly enough of everyone and all their work.

    • @Skept_
      @Skept_ Год назад +1

      How do I become a scientist? I have lots of knowledge about things and have my own theories, being apart of this world crafting and creating for man kind would be bad ass

    • @rickebert7548
      @rickebert7548 Год назад

      How? Learn all you can, and stay curious.

    • @rickebert7548
      @rickebert7548 Год назад +6

      I think this is just awesome… these advances don’t just happen, even with huge effort.
      Going to Mars or the Moon is an All-NASA program, maybe an all-of-humanity program.
      GRC, U.Ohio so proud to share the logo.

    • @calvinyoung480
      @calvinyoung480 Год назад +6

      @@Skept_ There are so many ways to get involved! It really depends on where you're at in life. Try to get engaged with local groups and communities--it's so much more rewarding to participate in person.

  • @uasif1993
    @uasif1993 Год назад +1256

    As a dentist, we use NiTi alloys in our dental files for root canal treatments. Really interesting to see its applications in other fields!

    • @EddieBurke
      @EddieBurke Год назад +4

      Is the application similar? Does applying heat to it help it “set”

    • @Vadow789
      @Vadow789 Год назад +5

      Isn't it also used in braces?

    • @julianofischerrauber8938
      @julianofischerrauber8938 Год назад +12

      @@Vadow789 Yes, in self ligated braces.

    • @MCMXI1
      @MCMXI1 Год назад +19

      @@Vadow789 My orthodontist used NiTi in my braces about 30 years ago. I'll never forget him applying cool and watching the wire go limp then applying heat and instantly regaining the shape for my teeth.

    • @monastero
      @monastero Год назад +2

      Vascular stents!

  • @stepexgd6628
    @stepexgd6628 Год назад +587

    I'm not an engineer or physicist, but this is one of the coolest materials I've ever seen.

    • @waltersike
      @waltersike Год назад +6

      Physical

    • @stepexgd6628
      @stepexgd6628 Год назад +9

      Yeah, I'm not physical. I'm a ghost >:)

    • @user-ku5be4nc3g
      @user-ku5be4nc3g Год назад +5

      You haven't seen my wife yet... Just kidding, i am forever alone.

    • @ailaG
      @ailaG Год назад +1

      Especially when straightened!

    • @beginnereasy
      @beginnereasy Год назад +1

      I said there are electric rocks just like magnetic rocks and suddenly there were all these photos of that stuff

  • @R005T4R
    @R005T4R Год назад +125

    one of my customers was one of the engineers that was hired to study Nitinol in the late 60’s and 70’s he’s still inventing today and is currently close to a breakthrough in magnetics

    • @recordstorewhore
      @recordstorewhore Год назад +1

      China has entered the chat...

    • @dagoberttrump9290
      @dagoberttrump9290 Год назад +4

      What kind of breakthrough?

    • @gratitudesacredawakening
      @gratitudesacredawakening Год назад +2

      I would also like to know, I’m intrigued.

    • @colbyr7811
      @colbyr7811 11 месяцев назад +12

      ​@@dagoberttrump9290he's probably been close to a breakthrough for 5 decades 😅

    • @xorgbeep
      @xorgbeep 9 месяцев назад

      underrated hottake @@colbyr7811

  • @nikolatesla2318
    @nikolatesla2318 Год назад +334

    What i really like about this videos, is the fact that the people that work in these places are actually nice and kind and are willing to share the beauty of science to whoever is in front of them.
    That's passion right here guys

    • @thesmarttirecompany
      @thesmarttirecompany Год назад +22

      The team at NASA Glenn is incredible (and we like our guys a lot too)!

    • @xGaLoSx
      @xGaLoSx Год назад +4

      those first 2 tests were cringe and unnecessary. The new tire isn't holding in air, so why do a nail test?

    • @johnlucas6683
      @johnlucas6683 Год назад +13

      @@xGaLoSx Well.. to show the difference. It is still called a tire after all. And seeing it getting shot by a bullet, not only not getting punctured but also not getting bent to unusable state, as a wheel, is kinda amazing.

    • @hellobro9280
      @hellobro9280 Год назад +1

      Ofc not, if it wasn't a popular channel like Veritasium, they won't even care

    • @xGaLoSx
      @xGaLoSx Год назад +1

      @johnlucas6683 you don't need a test to know a nail isn't going to pop a tire that can't be popped.

  • @LogicAndReason2025
    @LogicAndReason2025 Год назад +3752

    We need more stuff like this to help the public understand that NASA is not an expense, but a great investment that pays back more than double.

    • @teslafieldphysics4041
      @teslafieldphysics4041 Год назад

      How much as NASA put in your pocket? Nothing! Your brainwashed, I feel sort for you.

    • @unknownman5090
      @unknownman5090 Год назад

      I agree with you. I hate US but I love NASA. They help space exploration become reality. I dont care if Apollo really land on moon or not. That thing do no harm even if it a lie.

    • @ThatGamerAlexIsThatBoy
      @ThatGamerAlexIsThatBoy Год назад +79

      No Bc bad for capitalism

    • @earthling_parth
      @earthling_parth Год назад +337

      @@ThatGamerAlexIsThatBoy Exactly. Capitalism values short term gains way more than long-term returns.

    • @LogicAndReason2025
      @LogicAndReason2025 Год назад +278

      @@carlosquinto1383 Not weird at all. That is how national investments work. Just like with public education. The Post WW2 tech boom was fueled by major investments in public science education. Some people think that because a percentage of students flunk out, that the investment is not good, when in fact, the benefits far outweighs the loss. The smarter the country, the richer it will be.

  • @mdashrafulislam64
    @mdashrafulislam64 Год назад +455

    As someone deeply passionate about material science, I found this video on NASA’s development of the Spring Tire to be incredibly fascinating. It’s amazing to see how research conducted by NASA eventually trickles back into commercial usage and benefits us all. Thank you for sharing this information with us!

    • @grimaffiliations3671
      @grimaffiliations3671 Год назад +29

      Makes you realize that the government is actually more innovative than a lot of private companies. They come in after the government has spent a lot of time on research and development

    • @redpillsatori3020
      @redpillsatori3020 Год назад +1

      @@grimaffiliations3671 Not really, but keep telling yourself that

    • @4stomper
      @4stomper Год назад

      @@grimaffiliations3671 Quite the opposite.

    • @grimaffiliations3671
      @grimaffiliations3671 Год назад +13

      @@redpillsatori3020 Yes really, whether its new drugs, the internet, touchscreens or GPS, it's been government driving innovation

    • @johnyepthomi892
      @johnyepthomi892 Год назад +9

      @@redpillsatori3020 kindly elaborate rather than simply sounding like a contrarian.

  • @adrianrahardjo8481
    @adrianrahardjo8481 Год назад +110

    In the first 10 minutes, they basically covered several key topics of a Materials Science degree in a very interesting and memorable way. I really wished this video was available a few years ago when I was still in uni...

    • @b0bby5104
      @b0bby5104 Год назад

      they were this channel is old and you had stuff like nile red too and a bunch of other channels

    • @dobber43
      @dobber43 Год назад +6

      ​@@b0bby5104he said he really wished this video not videos by this channel or just other quality science videos he specifically said THIS VIDEO

  • @Thorfinn.05
    @Thorfinn.05 Год назад +252

    I am preparing for a solids class test, and I will be asked about everything discussed here. This video not only improved my understanding of the topic but it went beyond discussing this new material for me, the applications, different scenarios and even the history. In short, you have made a goldmine of a video. Thank You so much, Veretasium Team. I really love your channel, and you never cease to amaze me.

  • @paulpease8254
    @paulpease8254 Год назад +565

    The stress-strain curve reminded me of my PhD work on single DNA molecules. We could grab the two ends of a single DNA molecule (with laser beams, of course), and make force-extension curves. DNA also goes through a phase transition under physical strain. At first it acts like a low stretch string, where the force increases quickly as the extension gets close to the full length of the molecule. At around 65 piconewtons (65x10^-12 N) it will “overstretch” and at a relatively constant force (hallmark of a phase transition) will stretch to ~1.7 times its normal length. When the force is reduced it will go back to its original length, although there can be significant hysteresis depending on how quickly the load is reduced. The overstretching is coupled to an unwinding of the double helix, so in effect it’s a wind up toy and can be used to apply torque, e.g. rotate a microscopic bead. DNA is a super cool material, I hope Veritasium does a video on this stuff.

    • @salina3192
      @salina3192 Год назад +94

      I did not expect someone talking about overstretching DNA in an optical tweezer in a video about Nitinol. Greetings from a postdoc doing a lot of force extensions on RNA in magnetic and optical tweezers 😅

    • @BrotherWalrus
      @BrotherWalrus Год назад

      @@salina3192 As a layman, this video was mind-blowing enough, and now you two come in and tell us you can hold DNA with LASERS?! There's no brain left to blow anymore, it's all over the walls now!

    • @Merthalophor
      @Merthalophor Год назад +19

      > DNA is a super cool material
      Is there any form of research going on to use DNA as a main ingredient of a material? The same way e.g. polymers are used in plastic? Or what sort of (potential) applications do these cool properties you just mentioned have? Sounds fascinating!!

    • @tbraghavendran
      @tbraghavendran Год назад +5

      What about DNA computing 🤔

    • @gps9715
      @gps9715 Год назад +5

      Once again biology through evolution is way ahead of the curve. Awesome info. Thanks.

  • @Salisaad
    @Salisaad Год назад +199

    What I love most about Derek is that he takes us to meet these incredible passionate people doing fascinating stuff.

    • @TheAnnoyingBoss
      @TheAnnoyingBoss Год назад

      Thus titanium alloy is pretty wild i just wonder what its durability is. Its like as if you had a. Ultra magic paperclip.

  • @MiguelHernandez-nd3pr
    @MiguelHernandez-nd3pr 11 месяцев назад +12

    Hands down one of the best videos you've made and one of the best on RUclips. So helpful. We watched this video as a family this morning with teenagers and 8 year old. They thought this was amazing. Great job inspiring science in the lives of my children.

  • @beckyolesen1919
    @beckyolesen1919 Год назад +161

    One of my favorite thing about being an engineer is watching other engineers geek out about whatever they are working on!

    • @syedabishosainrizvi7817
      @syedabishosainrizvi7817 Год назад +1

      It is genuinely so much easier to talk at length to someone about a project that you've done

  • @jackjac
    @jackjac Год назад +403

    I'm a materials science masters student and Derek presented the topic really nicely. It's close to the level I was introduced to in my bachelors. I was blown away then and guess the audience is too. Thank you!

    • @ApofKol
      @ApofKol Год назад +1

      You are correct

    • @futsalkeegan
      @futsalkeegan Год назад +14

      Those phase transition and stress strain animations would have been a game changer in the intro to materials class!

    • @madmat1652
      @madmat1652 Год назад +15

      @@NarrativeOfLifeM insecure much?

    • @ApofKol
      @ApofKol Год назад

      @@madmat1652 Projection much?

    • @CaptainPupu
      @CaptainPupu Год назад +3

      Did you learn about bullshitonium yet?

  • @jakeperrine2488
    @jakeperrine2488 Год назад +166

    My father was on the design team for the Apollo rover (and LEM,etc.) and received an award for his team’s design of the rover tires. It’s so cool to see this generations upgrades to the concepts they used back then!

    • @RangerDon-o5y
      @RangerDon-o5y 3 месяца назад

      Years ago I had talked with a man who also was on the team who came up with the wire wheels for the moon buggy.

  • @ivanmartindelcampo
    @ivanmartindelcampo Год назад +9

    I vividly remember in my gen chem lab class at uni we had an experiment where we messed around with Nitinol and I was completely in shock and awe with how it was behaving. I want to say that day was the moment I fell in love with material science and now love learning and researching about polymers as a chemist!

  • @jarretburgener3351
    @jarretburgener3351 Год назад +436

    As an engineer grad who had to work with material science this video was very facinating, and really gets you trying to think about other applications for such a material. I bet racecar companies are looking into this material for their tires. I wonder if you could use this material with appropriate heat controls to increase traction or decrease traction of the tire during the race. If so, I could easily see it being one of the biggest improvements to long-term race times as you could "deflate" the tire on harsh turns, and to slow down leading into them, and then "inflate" the tire on straights for speed.

    • @onyx3019
      @onyx3019 Год назад +14

      we use it in dentistry in root canals and braces which is amazing

    • @PinkFZeppelin
      @PinkFZeppelin Год назад +18

      In the context of racing tire pressure is usually used to control heat. Low pressure tires make more heat than the same tire at a higher pressure. They are just trying to target a specific temperature for a given tire compound.
      It could be cool to see it used to increase efficiency of vehicles with rubber tires. In the straights you could reduce the contact patch of the tire to reduce the coefficient of friction. In a corner it could do the inverse.

    • @leskobrandon7516
      @leskobrandon7516 Год назад +1

      I'm sure shoes have a place here

    • @bigmitchy4026
      @bigmitchy4026 Год назад +21

      i kinda doubt it'd be used for tires cause it seems like the coefficient of friction isnt going to be all that high

    • @GizzyDillespee
      @GizzyDillespee Год назад +1

      Rocket cars at the salt flats. Sort of like missiles with wheels

  • @speedfastman
    @speedfastman Год назад +11717

    Can you do "how NASA reinvented cat girls" next?

  • @Ragzzy-R
    @Ragzzy-R Год назад +42

    shoutout to Dr. Santo. he is clearly so passionate about the science and explains it so calmly so its easy to understand.

  • @5MadMovieMakers
    @5MadMovieMakers Год назад +514

    Engineers who never "tire" of their job!

    • @Nezzen-
      @Nezzen- Год назад +15

      oh brother

    • @S1YAM
      @S1YAM Год назад +14

      that was so terrible. never try puns again. it's not your thing

    • @MIlodOz0n
      @MIlodOz0n Год назад +15

      @@S1YAM its a type of humour, so it's not your thing either

    • @lucienmoolman8017
      @lucienmoolman8017 Год назад +8

      That was so bad it became good

    • @ImThatGirl101
      @ImThatGirl101 Год назад +3

      🐑🪘🐍

  • @rocketkinger2506
    @rocketkinger2506 Год назад +232

    So glad to hear Austenite and Martensite in one of your videos. I have built my career so far around these two words and it has been so rewarding. You guys probably got to see it fly on recently ;)

    • @kenne210
      @kenne210 Год назад +5

      While watching this video I thought, this sounds like martensite. Its one of the few things I remember from college while in an engineering class. It stuck with me after a decade because it was so interesting.

  • @jimmylin7233
    @jimmylin7233 Год назад +108

    I worked with nitinol about 25 years ago in the medical industry, when it was being heavily promoted for stents. It's a great material, lots of potential. Good stuff!

  • @ScottsSynthStuff
    @ScottsSynthStuff Год назад +350

    I've been to NASA Glenn at their wheel development and testing center, it's really cool. I've seen those shape memory metal wheels, and the huge simulated Martian surface they have for testing. So cool.

    • @redion8575
      @redion8575 Год назад +6

      @Don't Look At Profile * no one cares

    • @allothernamesbutthis
      @allothernamesbutthis Год назад +5

      britains roads are resembling mars with all the pot holes.

    • @haidernaeemmalana8601
      @haidernaeemmalana8601 Год назад

      You wont believe i just say it too in a RUclips video

    • @melkiy582
      @melkiy582 Год назад

      @Don't Look At Profile в России не работает. Не видно картинки профиля

    • @xelasomar4614
      @xelasomar4614 Год назад +2

      The question is when will it be commercially available. Living in NYC I would love a pair for my bike.

  • @ACoe40
    @ACoe40 Год назад +15

    Very cool, I’m in medicine and we use Nitinol stents a lot- interesting to learn how they retain their shape and are able to apply the necessary radial forces to a stricture

  • @hendini
    @hendini Год назад +105

    I screamed “NITINOL” the moment that the video started. I knew immediately what was happening. Fantastic video, as a Materials Engineering student, it’s neat to see the applications of material research, such as nitinol.

  • @bradleygarlak8283
    @bradleygarlak8283 Год назад +641

    I’ve never clicked on a video so fast. My great uncle was one of the lead engineers on the old moon rover tires. I’m so glad that they included it into this video and even though my uncle just passed away I know he would be thrilled that we are taking the next generation of tire for space travel for a spin.

    • @lunar9650
      @lunar9650 Год назад +16

      Rip grandpa you did a good service 🫡

    • @smolltaco5667
      @smolltaco5667 Год назад +5

      I hope the next gen space cars have v8s in them

    • @rishabhagarwal6057
      @rishabhagarwal6057 Год назад +7

      @@smolltaco5667 Sorry to break it to you man, but combustion engines dont work in space. There's no oxygen for combustion up there

    • @smolltaco5667
      @smolltaco5667 Год назад +3

      @@rishabhagarwal6057 who said the engine has to be exactly like the ones we have down here?
      You could just seal it and put oxygen in it

    • @cloudy7937
      @cloudy7937 Год назад +7

      ​@@smolltaco5667 I'm only a STEM student and not a fully fledged engineer but I suspect that would make for a pretty short ride compared to nuclear/electric vehicles
      Still would be mucho cool

  • @AU_TRL
    @AU_TRL Год назад +94

    Did my masters thesis on modelling and simulation of shape memory alloy actuators and I’m happy you are showcasing this to a broad audience. Awesome stuff

  • @maryistubing
    @maryistubing Год назад +4

    I love how that Santo guy is really, really into the sciene and its effects. You can just see his love for it. Awesome.

  • @FutonProduction
    @FutonProduction Год назад +293

    My job is to develop heat treat processes for mainly medical device components made out of nitinol, getting the components to transition from martensitic to austenistic at specific temperatures in all sorts of shapes, but even I was able to learn more about nitinol and it’s varied uses. Really fascinating video.

    • @alexkram
      @alexkram Год назад +16

      I once designed a solenoid valve that used a nitinol spring. The problem I had was the fatigue life was not good. I would get springs breaking at 100k cycles and I needed 10x that. So I abandoned nitinol for spring applications. This was 15 years ago. Have there been advances that have improved the fatigue performance? I assume tires would need very good fatigue life.

    • @FutonProduction
      @FutonProduction Год назад +24

      @@alexkram it’s possible that the strain was too close to the maximum of roughly 8%, which over time could weaken the material to the point of breaking. 3-4% strain is ideal for longevity, and would make for a relatively life-long part.

    • @JorgetePanete
      @JorgetePanete Год назад +2

      its*

    • @ignolan
      @ignolan Год назад +8

      @@alexkram I'm also an engineer at a nitinol device manufacturer. A big factor in fatigue life is alloy purity. Companies now offer alloys with extremely low inclusions (ELI from Confluent, Enduro from Memry, etc.) You would have better luck with those alloys when considering fatigue. They are fairly recent advances so weren't available 15 years ago.

    • @manuvillada5697
      @manuvillada5697 Год назад

      How expensive is the material? Could those jeep wheels be a factible product?

  • @carsongbaker
    @carsongbaker Год назад +54

    That 3d stress strain diagram was incredible thank you and well done!

  • @DistilledScience
    @DistilledScience Год назад +321

    Oddly enough, as an engineer, for some reason my first thought when encountering memory shape alloys was "this could make some *really cool seasonal artwork!* "

    • @PsRohrbaugh
      @PsRohrbaugh Год назад +31

      Be the artist you want to see!

    • @kms4829
      @kms4829 Год назад +15

      Blooming plants but metal

    • @simonmarcu01
      @simonmarcu01 Год назад +10

      This wouldn't really work, because it only goes back to it's form when getting warm. You would have to manually reset it when it gets colder outside, but it would be a cool concept.

    • @GamerKiwiOfficial
      @GamerKiwiOfficial Год назад +6

      It would write "hot" when its hot and "cold" back when the temperature drops

    • @Alex-lk6rn
      @Alex-lk6rn Год назад +2

      Wow thats actually so cool. You could make objects bend to create shade when they're warmed by the sun as well

  • @TheJvb8
    @TheJvb8 Год назад +41

    This was super interesting. Would love to see a follow-up video going into some of its limitations and why we haven't seen it more in industrial use for something that was discovered in the 60s.

    • @panner11
      @panner11 Год назад +2

      One of the big ones is just that it's pretty expensive

    • @asherandai2633
      @asherandai2633 Год назад +1

      @@panner11 So were computers back then. But the costs came down massively as they improved and got better at making them.
      So if it really is still so expensive, the question is what's stopping them from improving and getting better at making them?

    • @pkmnogosari6091
      @pkmnogosari6091 Год назад

      @@asherandai2633 the material is titanium, how many things are made of titanium? Shows you how rare they are

    • @asherandai2633
      @asherandai2633 Год назад +5

      @@pkmnogosari6091 titanium is the fourth most abundant metallic element, and the ninth most abundant element overall. It’s not rare at all, so it shouldn’t be so expensive.

    • @tylerdurden3722
      @tylerdurden3722 Год назад

      ​​@@asherandai2633
      Semiconductors became cheaper because transistors were made smaller and smaller. Meaning less material was needed.
      You can't apply that concept to something like gold, for example. It's expensive because it's limited.
      Both Nickel and Titanium ore is very limited.
      Nickel is can only be mined in a few placed on earth in significant amounts.
      Same with Titanium.
      Both metals have very high melting points (need a lot of energy to work them into shapes).
      Hence why nickel alloys are used in jet engines (because it can handle crap tons of heat).
      The bonds between Titanium and the stuff it forms a compound with in the ores require a crap ton of energy to break.
      Extracting Titanium from ore will always be energy intensive. There's no way around that.
      Titanium is very reactive so it needs special environments and tools to be worked. An inert atmosphere and tools that won't contaminate it.
      Working with both Titanium and Nickel are both very mature technologies. Both metals are used extensively in the aviation industry.
      There are 35 000 Commercial aircraft existing now, alone. Most of them making extensive use of both nickel and titanium. Everything to make it cheap in terms of energy has been done.
      Then the electronics industry also uses a lot of nickel, and increasingly so with lithium batteries. Only a few countries are blessed with Nickel and Titanium ore. E.g. Russia. Hence why nickel prices are skyrocketing.
      In other words, using nitinol for a lot more stuff will increase Titanium and Nickel prices. Making it more expensive, not cheaper.

  • @hydropotamis
    @hydropotamis Год назад +30

    I'm a racer, trucks, motorcyles, sand dunes and I loved this video!
    The spring interlay, layout reminds me of when I used snow chains in the sand dunes with a 1 wheel drive truck and tiny street tires, it worked.

    • @GoldenGrenadier
      @GoldenGrenadier Год назад

      Broken axle or just an open diff?

    • @ShannonJacobs0
      @ShannonJacobs0 Год назад

      The google will quickly censor this question:
      Why are RUclips comments packed with circle-jerking sock puppets?
      Obvious, as are the countermeasures--but the google wants fake "engagement", the better to sell clueless ads.

    • @mastershooter64
      @mastershooter64 Год назад +1

      Damn you're a racer and you're a truck and a motorcycle and you're a sand dune?? that's awesome dude I hope I can be a sand dune one day

  • @daxliniere
    @daxliniere Год назад +280

    This video just kept getting better and better. Amazing work Derek and team! Side note: Michelan debuted airless tyres about 20 years ago, so it's a shame we're still yet to see them on passenger vehicles.

    • @bjarne9321
      @bjarne9321 Год назад +43

      It is because airless tires have some drawbacks such as increased weight, higher rolling resistance and higher cost, which have prevented them not yet from being widely used in passenger vehicles.

    • @MFWb00bi3s
      @MFWb00bi3s Год назад +6

      @@bjarne9321 Also without a very durable/fast way to change things like vortex generators you are limiting an aircraft's maneuverability substantially let it be agility or range.
      Seems like an excellent material for commercial airliners running certain routes and niche projects alike. Can't wait to see if something similar can be made with different materials and/or properties.

    • @Exgrmbl
      @Exgrmbl Год назад +7

      the reason is that they feel like sh*t to ride compared to pneumatic tires. They are utility wheels first and foremost.

    • @jonadabtheunsightly
      @jonadabtheunsightly Год назад +4

      Nickel and titanium are fairly expensive. I'm not sure it would be practical to use these tires on a normal consumer vehicle.

    • @Truex007
      @Truex007 Год назад

      @@jonadabtheunsightly I'm not so sure about that. We're already to the point of using carbon fiber on certain parts of the engine block, namely the pistons and connecting rods. Material sciences, 3d printing, and strange new ways of looking at engineering have dramatically changed cars before, and once consider super-exotic, are now common everyday things. The tire pressure sensors in my Mazda 2 were once debuted in the Porsche 959, at one time the fastest car in the world, as such an example. it's less about cost, and more about practicality. Someone mentioned comfort. I'd rather have the occasional flat than have a ride like falling down the stairs.

  • @ovejanegra7355
    @ovejanegra7355 Год назад +46

    In my opinion, the best Veritasium videos are the ones that showcase awesome lab research + practical applications. What those NASA guys are doing is just brilliant, really fantastic work. Congrats to all of them!

  • @Cayled174
    @Cayled174 Год назад +4

    The title was so catchy that I thought It was some clickbait, but knowing veritasium I knew it was unlikely. I'm not disappointed. Nasa really did reinvent the wheel!

  • @mykelmiller1
    @mykelmiller1 Год назад +35

    The temperature, strain, stress graph at 10:58 was so helpful. Thank you!

  • @kashanalidjan7978
    @kashanalidjan7978 Год назад +86

    It was mentioned that NiTiNOL is being used in multiple applications, which is super neat as I was able to use it for radio astronomy applications in my graduation thesis. Making large structures with NiTiNOL is way cheaper than launching and constructing them in space. The opportunities are almost endless!

    • @thesmarttirecompany
      @thesmarttirecompany Год назад +5

      Yes, so many possibilities!

    • @gabiferreira6864
      @gabiferreira6864 Год назад +2

      I really wonder what's the downside of this material? Is it just cost?
      Cause all I've heard of it is super positive, if it is as good as it sounds we could have great developments in the near future

    • @kashanalidjan7978
      @kashanalidjan7978 Год назад +1

      @@gabiferreira6864 As far as my project went, you'll order based on your specifics. I needed 1mm radius wires which had memorized as a straight line. I cut it in the size of my antenna and because of the memorized shape, I could completely bend everything to fit in the container. However, if you want to memorize custom shapes like the "Ve" or "NASA" we saw in this vid, I'd suppose you'd need to send the manufacturers specific details. My thesis was almost exactly 2 years ago, so maybe things have changed. It for sure wasn't like your typical DIY shops back then, but that made the experience feel more special

  • @SilentSolace
    @SilentSolace Год назад +138

    It’s technology like this that can affect entire industries that I love. There is so much that starts from space or military research that eventually is able to be used in wider applications by the public. We spend a lot in the US but stuff like this makes it worth it imo

    • @haydnw869
      @haydnw869 Год назад +4

      Too bad it wouldn’t be economically feasible or cheap enough for big companies to risk investing in

    • @zriyazira
      @zriyazira Год назад +30

      @@haydnw869 Planned obsolescence will probably never let these tires get to the general public.

    • @Konrad_K.
      @Konrad_K. Год назад +1

      Worth 1 trillion dollars??

    • @lonesome3958
      @lonesome3958 Год назад +2

      ​@@zriyazira *impracticality will never let these tires get to the public. These Tires may be well suited for a surface like mars, but imagine driving 100 km/h+ on asphalt. They'll deform way quicker, wont be able to handle a hard surface like roads, the heat generated by those speeds will be insane, and the average car weighing more than 1500 pounds more than a mars rover these tires just arent designed for regular consumers. And thats not even touching on the price point of these things.

    • @Alceste_
      @Alceste_ Год назад

      @@lonesome3958 Maybe we should stop making our cars heavier and heavier, alternately. .-.

  • @rubycosmo6279
    @rubycosmo6279 Год назад

    The guy demonstrating seems like an incredible teacher with the way he engaged everyone and used the audiences terms in a scientific context

  • @bharadwaj_routhu
    @bharadwaj_routhu Год назад +66

    The excitement in his face while Santo is explaining about the Exothermic reaction, and he being genuinely happy that Derik guessed it right, that was truly happy to look at 😁

  • @otavioalmeida6638
    @otavioalmeida6638 Год назад +71

    Great video! I'm doing a PhD in a lab where people explore the potential of NiTi, it's really cool to see it being diffused by you guys!

  • @lsdave
    @lsdave Год назад +34

    The people that work at this company are some of the luckiest people in our workforce.... you can just tell how excited they all are to show what they are developing which they all seem to love. Love what you do and never work a day in your life.

  • @fontanelliconsultoriaeproj4909

    One thing of many that I apreciate about this channel is that you have made effort to adapt yourself to the science language of units... The metric system. Most others want to change the world instead of adapting.

  • @ThomasKing19933
    @ThomasKing19933 Год назад +356

    The work NASA are doing is incredible!

    • @GameDevAraz
      @GameDevAraz Год назад +8

      Yeah, their gay

    • @grievetan
      @grievetan Год назад +42

      @@GameDevAraz cope

    • @HarrDarr
      @HarrDarr Год назад

      @@grievetan ur gay 2

    • @TheAnnoyingBoss
      @TheAnnoyingBoss Год назад +2

      ​@@grievetan no nasa is gay in a lot of ways. Look hoe gay the budget it 😂 but cool stuff comes out of it

    • @mortenhyvejle
      @mortenhyvejle Год назад +3

      Absolutely gay

  • @GunwantBhambra
    @GunwantBhambra Год назад +60

    "elastocaloric" is the effect that happens with rubber bands too. Its exothermic when stretched and endothermic when realized. I wanted to make a cooling unit form it for so long, now I know its not just me.

    • @aaron41
      @aaron41 Год назад +15

      Ben Krasnow made an elastocoloric refrigerator on his channel "Applied Science". He's one of my favorite youtubers!

    • @thesmarttirecompany
      @thesmarttirecompany Год назад +2

      The effect in nitinol is unreal to feel. Look at her shocked face in the video! Now imagine that working FOR you in terms of fuel efficiency...

  • @Rodrigo93vg
    @Rodrigo93vg Год назад +147

    One more interesting application is on seismic design of structures. During my undergrad I worked at the laboratory of the University of Ottawa with 2 PhD students that were investigating how to use Nitinol rebars and external reinforcement. Goal was to to allow for additional strain without failure of structures and to potentially recover the deformation under severe seismic events =)

    • @DaHolyCanadian
      @DaHolyCanadian Год назад +1

      Yo that is honestly so cool, must've been an amazing opportunity to work with those guys

  • @TosaNewsense
    @TosaNewsense Год назад +2

    I've been lowkey obsessed with nitinol ever since needing my first pair of glasses in the late 80s and constantly having to go back and get my glasses adjusted or repaired. Too often, having fallen asleep with them still sitting on face, I'd wake up and find my eyeglasses had undergone some Level 6 trauma during the night and had jumped off the bed to escape the night terror. At best, they would sit crookedly and at uncomfortable angles to my face. After a while, the eyeglass fames would be stretched, twisted,, plasticized so hard, I'd need new fames altogether. Learning they made eyeglass frames with memory wire was like the heavens broke open and angels started singing.

  • @williamflanagan5788
    @williamflanagan5788 Год назад +41

    It's so cool to see the comments and the implementation of Nitinol in widely various applications. I even used them as guide-wires for surgical instruments in spinal surgery. Crazy material.

  • @owenlyfans
    @owenlyfans Год назад +9

    This is amazing. Even as somebody who doesn't spend much time engaging in physics discourse, I can completely understand how revolutionary this invention is. This could genuinely change the way we do everything. From travel, to home heating, to industrial uses. Incredible.

  • @the4fibs832
    @the4fibs832 Год назад +39

    Shoutout to Cameron Hughes for using nitinol in his fashion designs. He runs a current through the wire and the piece changes shape - length of skirt, structure of shoulders, etc. Very cool.

  • @HarrisonWhite-wi4ns
    @HarrisonWhite-wi4ns 2 месяца назад

    I’ve been having such a problem with my bike tires being shot out. I’m glad someone finally has a solution!

  • @amritanshubarpanda1325
    @amritanshubarpanda1325 Год назад +84

    The last segment of shaping the nitinol to "Ve"was a great touch. Do that everytime with the things you make videos about. It adds a certain feel to the videos. Like with the cement video, you could have carved "Ve" into some permanent structure while the cement was setting.

    • @itsbishop2285
      @itsbishop2285 Год назад +2

      that’d be sick

    • @lombre9149
      @lombre9149 Год назад +2

      @Repent and believe in Jesus Christ Jesus aint taking these wheehls

    • @lombre9149
      @lombre9149 Год назад +1

      ok mobile youtube is so fucked i cant even edit my typo this si so sad

  • @joaocarlosrms
    @joaocarlosrms Год назад +26

    As a welding engineer this is music to my ears!
    Love Veritasium!
    Cheers from Lisbon 👌

  • @filipskater
    @filipskater Год назад +109

    Derek, what I love about your channel is how you treat your viewers like intelligent, educated human beings. You don't dumb down your content to the level of a five year old and you keep the clickbait to the minimum. Whenever I think youtube turned into a dumpster, your videos remind me that not all hope is lost.

    • @Juxtaposed1Nmotion
      @Juxtaposed1Nmotion Год назад +13

      This is dumbed down lol, nothing about the physics and thermodynamics except for "bend rod get hot"

    • @filipskater
      @filipskater Год назад +6

      @@Juxtaposed1Nmotion How's high school kid?

    • @Juxtaposed1Nmotion
      @Juxtaposed1Nmotion Год назад +3

      @@filipskater you tell me son.

    • @erikpasquale9902
      @erikpasquale9902 Год назад +7

      @@Juxtaposed1Nmotion why so condescending

    • @killer115ish
      @killer115ish Год назад +5

      Woagh tire that uses no air can be punctured??? Impossible, puncture it anyway, in fact shoot it. Because we think our viewers are dumb

  • @kingbradley3402
    @kingbradley3402 Год назад +1

    It's amazing seeing so many people comment here on Nitinol being used to save lives in medical field, to design strong structures. All because NASA had to solve a very unrelated problem for a program which many believe is a cash burn. Truly amazing stuff and shows why any expenditure on science is not enough

  • @LelandMaurello
    @LelandMaurello Год назад +9

    I'd learned about Nitinol many years ago (High school, I think), then I forgot the name. But not the properties of the material! Now the two are reunited in my brain! Thank you Veritasium!

  • @davidsamsonite5791
    @davidsamsonite5791 Год назад +16

    My college roommate’s father (last name was MacArthur) made some engineering / design contributions to the Apollo Lunar rover wheel. I don’t recall any of the details, but he had a picture of his father holding the metal mesh wheel. :)

  • @tish3jan
    @tish3jan Год назад +9

    Good Job "Science Guy". Thank you Derek for being the guiding light in the pursuit of knowledge.

  • @ml48963
    @ml48963 Год назад +6

    Wow, what a cool video and comprehensive demonstration and explanation of nitinol and its applications! Great job on this one, probably one of my favorite Veritasium videos. And thanks to everyone at Glenn and the contractors that work on this awesome tech and explained it so thoroughly!

  • @FlamingRobzilla
    @FlamingRobzilla Год назад +90

    I'm not sure, but I believe you don't need to heat it with a torch. If you run current through the wire it will heat up and return to it's original shape. That means you can have a solid state motor, and if you use many strands in parallel you could make it quite powerful.

    • @conorstewart2214
      @conorstewart2214 Год назад +36

      Yeah any source of heat will do. The problem with your idea of a motor though is whether the energy required to make it contract is the same as the energy required to stretch it, if so then it could limit its usefulness.
      Using it for some kind of artificial muscle might work well though.

    • @williamashrafzadeh3701
      @williamashrafzadeh3701 Год назад +8

      Yea that was how they applied it to flaperon controls replacing hydraulics, mentioned in this video. Though I think it was a heating element instead. A current would probably be even more reliable

    • @aminulhussain2277
      @aminulhussain2277 Год назад +1

      ​@@conorstewart2214That's not a problem, it's just physics.

    • @conorstewart2214
      @conorstewart2214 Год назад +1

      @@aminulhussain2277 what is your point? It is a problem with the idea of using something like this as a solid state motor.

  • @anon_y_mousse
    @anon_y_mousse Год назад +29

    I'm sure a lot of people have known of this material for a good long while, but that NASA is going to use it for the tires of the rover is new information to me and is quite exciting. My first thought for durable tires that flex was giant springs with wavy plates attached to the ends that contact the ground and then wires to thread through holes connecting contiguous plates so the wouldn't get too out of sync as the tires rotate. I did an experiment and had tubes inside the springs to keep them from bottoming out and it worked fairly well, but they were beyond heavy. This looks like a better idea.

    • @JohnDoe-bd5sz
      @JohnDoe-bd5sz Год назад

      We do agree though that if this is going to be used in tyres on airplanes and cars, they will still need to rubberise this metal right ?
      I mean, i dont think this would stand up to the wear of an airplane landing or a car that brakes at full force. Also i would doubt the friction properties is the same as a rubber on tarmac tyre.

    • @anon_y_mousse
      @anon_y_mousse Год назад

      @@JohnDoe-bd5sz Why would we use it for car or airplane tires on Earth? That would be kind of wasteful, both monetarily and materially. The only reason it's even needed is for extraterrestrial exploration in adverse or non-existent atmospheres. Also, you can't rubberize metal.

    • @JohnDoe-bd5sz
      @JohnDoe-bd5sz Год назад +1

      @@anon_y_mousse they said they were looking into using it as car tyres and airplanes tyres as well. Tslked about it being flexible enough to omit suspension as the tyres Would act as those as well

    • @anon_y_mousse
      @anon_y_mousse Год назад

      @@JohnDoe-bd5sz I must've missed that in the video, but if so that's a really silly thing to do. Instead of paying $400 for a new set of tires we'd wind up paying $400,000. No, thank you, to that.

    • @JohnDoe-bd5sz
      @JohnDoe-bd5sz Год назад

      @@anon_y_mousse Timestamp 22:05 and forward, they talk about terrestrial application, even showing a car with one tire being this structural one

  • @Xargiyt
    @Xargiyt Год назад +44

    Ok, this is the first time I hear about Nitinol. I've not been this enthralled by the science behind a material before. It''s actually extremely interesting. I wanna know more! :D

    • @stephenolan5539
      @stephenolan5539 Год назад

      I had a small piece of it 40 years ago. I read about it in a Science magazine and they had a contest.

    • @JorgetePanete
      @JorgetePanete Год назад

      It's*

  • @therabbidt
    @therabbidt Год назад +93

    My god this is impressive, I never imagined metal replacing rubber tires and being very effective at that like wtf

    • @dax3m
      @dax3m Год назад +16

      One thing which wasn't covered is friction - because if the friction this material provides is close to or surpasses that of rubber, then bar astronomical manufacturing costs even with industrialization, we should technically be able to use it on vehicles.

    • @therabbidt
      @therabbidt Год назад

      @@dax3m oh my god

    • @skylined5534
      @skylined5534 Год назад +1

      You ought to see in other dimensions, they're pioneering the use of metal for wheels!

    • @beginnereasy
      @beginnereasy Год назад +1

      It's funny when we started threatening super pedo Island all of a sudden the miracle tech came back out

    • @ВасильПопович-б4ы
      @ВасильПопович-б4ы Год назад +9

      I think it only replaces air inside rubber tires, you still need rubber to make a practical real (Earth) world tire. Otherwise if you were to just use the mesh, small debris would make their way into the tires, and be impossible to get out. That's why they still had rubber in that bicycle demo.

  • @tfr
    @tfr Год назад +237

    Although simple, wheels are taken for granted so much. They’re so awesome and a great invention
    Great video :)

    • @briteeyes2133
      @briteeyes2133 Год назад +4

      Why not use in tires on earth? Because it would put companies out of business. Everything on earth they make to be replaced, over and over and over again. $$$$$$

    • @harmish9265
      @harmish9265 Год назад +2

      ​@@briteeyes2133 watch from 22:08

    • @briteeyes2133
      @briteeyes2133 Год назад

      @Harmish :) yes, they know they would work on earth but I seriously doubt they would mass manufacture them for the average man on the streets. Much like the free energy Tesla discovered or the cars people invented that ran on water, it would cause the shutdown of major corporations. There are so many great inventions not available to the average man. Many inventions that the govt will buy the patent just so it cannot be manufactured for use by civilians.

    • @lonesome3958
      @lonesome3958 Год назад +5

      ​@@briteeyes2133 impracticality will never let these tires get to the public. These Tires may be well suited for a surface like mars, but imagine driving 100 km/h+ on asphalt. They'll deform way quicker, wont be able to handle a hard surface like roads, the heat generated by those speeds will be insane, and the average car weighing more than 1500 pounds more than a mars rover these tires just arent designed for regular consumers. And thats not even touching on the price point of these things.

    • @leftaroundabout
      @leftaroundabout Год назад +3

      @@briteeyes2133 it's hard to appreciate just how good pneumatic rubber tyres are. The rubber fulfills three roles at the same time (containing the air, deforming around unevennesses, and giving traction to the ground), whilst the air manages to support a big weight with very little obstruction to the deformations / rolling.
      Those nitinol tyres do a formidable job at replacing this functionality, but they can't do it all as well as pneumatics. Unless you need your tyres to work at insane temperatures or survive deliberate perforation (and can't use liquid sealant), there's just no point.

  • @THE_MOONMAN
    @THE_MOONMAN Год назад +26

    As an iron worker this is very interesting! I wonder if we'll ever use it for super specific applications! Some of the crazy modern designs that are super expensive to build could definitely benefit from this. If it has enough tensile strenth than theres many applications it vould be used for. Probably too expensive still for now though if nasa is still working out the kinks (pun intended)

  • @StephenWest-t2v
    @StephenWest-t2v 7 месяцев назад +1

    Im still blown away that man went to the moon and immediately felt the overwhelming desire to drive on it. That is just bananas. Driving a nasa built dune buggy in 1/6 of earths gravity. Part of me is surprised they didn't drag a plywood ramp out of the lander to make a sweet jump.

  • @arielmiles3940
    @arielmiles3940 Год назад +31

    The fact that I understand Young's modulus way better in the 15 seconds of explaining than the 6 months of learning it in my A levels syllabus 😃

  • @kob8634
    @kob8634 Год назад +6

    Fantastic. Been curious about Nitinol for over half a century and this is the best bit on it I've seen yet. Thanks

  • @justyourfriendlyneighborho903
    @justyourfriendlyneighborho903 Год назад +16

    I always love it when a Veritasium video drops, this is peak educational youtube

  • @Jim54_
    @Jim54_ Год назад +2

    This is why investing in space is so important. The technological developments can’t be understated

  • @codediporpal
    @codediporpal Год назад +19

    This is truly amazing science journalism. I had no idea such materials existed.

  • @huracan200173
    @huracan200173 Год назад +41

    This could be awesome to the automobile industry also. You can dampen an impact by a huge amount if you use this material in certain areas of the vehicle. Amazing material!

    • @ferdinandgleinser2681
      @ferdinandgleinser2681 Год назад +4

      You would also dampen the forward motion of the car. Not very "awesome"

    • @dead-claudia
      @dead-claudia Год назад +10

      @@ferdinandgleinser2681 the idea is for extra crash safety etc

    • @MrJont1000
      @MrJont1000 Год назад +1

      Yes your right 👍 also there are lots of extreme heats at speed of continuous long journeys as well as the reverse in colder conditions in various continents as well without including seasons seasonal change that would also flip vary condition. ​@@ferdinandgleinser2681

  • @c.youngberg9511
    @c.youngberg9511 Год назад +5

    Dude. This video couldn't have been better timed for me. I'm literally replacing the tires on my E-Bike right now, while watching this. My town doesn't clean it's streets well and there's broken glass everywhere. Most of my innertubes lately have been One-Ride-Wonders. I would LOVE to put those Bike Tires to the test in a real-world environment.

    • @caodesignworks2407
      @caodesignworks2407 Год назад +1

      Look for Kevlar tire liners. They saved me a mint when I bicycled across the US

    • @Lolwutfordawin
      @Lolwutfordawin Год назад

      Schwalbe Marathons. I just ignore glass and ride over it, only flats I've had were from riding up staircases (snakebites)

  • @Bailey_Dreamfoot
    @Bailey_Dreamfoot 3 месяца назад

    15:02 specifically the part about stretching the nitinol wire, This has to be one if the coolest things in science I've ever seen. so often we see concepts like this visualized in relativity abstract ways, that make it hard to connect whats scientifically happening to what we see/ experience in reality even just on the microscopic scale- never mind molecular. but this is one of the only times ive seen a process like this where you could LITERALLY HEAR the molecular structure changing as you stretch it. thats absolutely insane to me, in such a cool way.

  • @theshadowsymphony
    @theshadowsymphony Год назад +23

    Such a great video! I loved how you seamlessly incorporated principles of engineering in an easy to understand way.

  • @jagdishsharma2436
    @jagdishsharma2436 Год назад +11

    21:57 I can definitely see the use of this material outside space exploration 😳

  • @DevilesEye1088
    @DevilesEye1088 Год назад +13

    I’m so thankful that you exist .. I’m always watching all of your videos without once taking my eyes of the screen .. love everything you do man!! Keep it going please !

  • @sangamo38
    @sangamo38 Год назад +2

    18:47 This guy has stars in his eyes while explaining things

  • @jakattak2403
    @jakattak2403 Год назад +63

    I wish I had this guy's life, he does some fascinating things and explains them so simply.
    Edited: OK to respond to the super logical commenters, let's change life* to job.

    • @zaubergarden6900
      @zaubergarden6900 Год назад +1

      you have *your* life. that's far more unique

    • @cole19yt
      @cole19yt Год назад +1

      go ahead and try something like it on your own then

    • @anafilipasenica6610
      @anafilipasenica6610 Год назад

      Me too! Always learning!

    • @mv9197
      @mv9197 Год назад

      Thats such a dumb things to say to another human, i wish i had your life, so low and so sad

    • @Rithmy
      @Rithmy Год назад +1

      @@mv9197 Don't be judgy dude.

  • @Matt_Hatt3r
    @Matt_Hatt3r Год назад +98

    Wow, that is absolutely fascinating!! I remember when I was a kid, my grandmother once questioned NASA and why anything they did was necessary in terms of practical application in our daily lives. I wish she was still around to see this.
    Edit: For the record, I've never questioned their technological advances! Lol thanks for the supportive comments, though! 😅

    • @0x0michael
      @0x0michael Год назад +6

      Solar Panels, telecoms etc.

    • @aaron41
      @aaron41 Год назад +7

      @@0x0michael weather prediction.... lots of advances in commercial aviation, etc..

    • @avananana
      @avananana Год назад +3

      I mean we'd never have a bunch of rover selfies from Mars happen if it weren't for NASA in the 60s :^)

    • @zakf2929
      @zakf2929 Год назад +3

      They've had a long history of RND with other industries think aviation, military, weather, medical, foreign affairs, geography, chemistry, biology, metal alloys etc etc. Their international space station is special as well because it can remove some of the contamination that earth has on certain experiments. We'll most probably never know the true scope of how much NASA has influenced everyday tech that we use every day.

    • @LandofWater
      @LandofWater Год назад +2

      @@zakf2929 whats RND?

  • @Calikid331
    @Calikid331 Год назад +6

    It's so cool seeing how the things I'm learning as an engineering undergrad are being talked about here as well.

  • @mattiemathis9549
    @mattiemathis9549 3 дня назад

    How have I never heard of this before? Absolutely amazing!
    Thanks V!

  • @DeathClawz
    @DeathClawz Год назад +4

    I was wondering why this all felt familiar. I'm an ME grad at the University of Akron and I've seen Smart Tire Co around, it didn't click in my head until I saw Dr. Heather Oravec at 20:35. It's really cool to see them out in the real world instead of in the college setting :)

  • @OfftheRecord2021
    @OfftheRecord2021 Год назад +4

    The ingenuity and innovation behind NASA's wheel reinvention is truly remarkable!

  • @Zenobiwan
    @Zenobiwan Год назад +45

    that material is hella impressive! you guys went into great depth about the physical resilience of nitinol. i am curious though, how well does nitinol hold up to friction?

    • @EricPalmer_DaddyOh
      @EricPalmer_DaddyOh Год назад +4

      If with could use them for auto tires what would this do to gas mileage?

    • @squidwardo7074
      @squidwardo7074 Год назад

      @@EricPalmer_DaddyOh Probably slightly better with a rubber outside layer, since its basically just chainmail and that stuff is quite light

  • @NinaYonng
    @NinaYonng 2 месяца назад +1

    It takes courage to grow up and become who you really are.

  • @anthonymorrow610
    @anthonymorrow610 Год назад +4

    Honestly this is probably the most mind blowing thing I've seen in a long time

  • @awayvfx4692
    @awayvfx4692 Год назад +6

    Im an aerospace engineering student and we actually learn most of the material science mentioned in this video as of right now. Im only in the second semester tho lmao. I can't wait to see what more there is to learn. Also I find it very interesting to see the stuff we learn about being applied in recent science projects.