Finally Upgrading my 3D Printed VTEC Engine, Then DYNO Testing it
ฝัง
- เผยแพร่เมื่อ 8 ก.ค. 2023
- As per viewer request, I decided to start working on my VTEC engine once again. I worked to make the engine's VTEC kick in automatically similarly to how it would on a typical Honda engine.
BTW, This video features me yapping a whole lot sorry
FILES: drive.google.com/file/d/1vjvG... - วิทยาศาสตร์และเทคโนโลยี
I forgot to upload the files until just now hehe, they're in the description
cool
How does someone like you not have 500,000+ viewers by now? I've been watching your videos and it's nothing short of quality. Keep it up dude. Youll go far ❤
N gin
I have an idea about the 3d printed gasoline engine I think the problem with the carb setup is that there is not enough air volume to suck up and atomize the fuel so I have 2 Ideas
1) use butane or propane as a fuel use the existing carb and plum butane into it and use some sort of valve driven by the cam shaft to open and close the butane tank as too much butane won't ignite
2) if you don't want to use butane as it's a gasoline engine try placing the fuel tank above the carb's fuel inlet and use some sort of valve similar to the one in butane setup
( I recommend that u increase the diameter of the intake valve as I think it's the main bottle neck) I hope this helps waiting for part 5 of 3d printed ice
Also I recommend that you get rid of the venturi setup and use direct injection into the intake and use a valve of timing of fuel
now run high octane through it
shi 93 octane that would sound amazing
A nitrogen tank
Nitromethane
Too little. He should rut it with nitroglycerin
Or E85
One thing you could do to have a stronger crank could be pressing a metal rod/pin through the center. Could also use a long screw to achieve similar effect.
And adding counter weights
Forged Carbon Fiber?
I was thinking some sort of high temperature rated fiberglass filament. Not sure if you need a different head to print that though
@@ianbaker4295I’ve printed a few different carbon materials… it would be great IMO for stiffness and strength, but would need some good lube or post process. Also not sure how it would handle heat…
Man, its fun to see a series of progress on a project like this. And as you can see by the numbers, it is fun not just for me. If youre enjoying this, please continue
You could possibly print counterweights on the crankshaft to make it not want to flex as much from the piston moving, as well as drilling a screw through the print to give it extra rigidity.
Thats what I was thinking. Something like a harmonic balancer. I also like your idea of putting a type of simple screw or dowel in the crank.
Agreed
Real crankshafts have this, don't know how much plastic would make a difference because it's so light anyway so counterweights wouldn't do much unless they were huge. But, may be the only thing for longevity.
A lighter con rod and piston would reduce the force on the crankshaft. Also, the closer the crankshaft bearings are to the con rod, the less bending moment the piston force will have on the crankshaft.
I'm excited to see where this goes in the future. Possibly more cylinders? Perhaps putting the E (Electronic) into VTEC? Maybe even continuously variable valve timing/lift?
E - exhaust
I like the video Camden!
Just curious though, did you ever try making the piston airtight? I’m gonna guess you did so my question is more, how did it go?
You gona make airtight lve or why ur asking
@@Kippo6969 lol what?
I wouldn't say airtight, but pretty close. I left about a ~0.1mm tolerance between the piston and walls and just added grease to make up the difference
@@CamdenBowen isn't the grease gonna act like a semi glue? i remember making something and high viscosity grease make it harder to turn, or stroke, (i dont remember what i make) so i used watery oil instead,. not sure how you do sealing with more watery oil though
@@mr.2minutes161 Yeah I kinda thought about that too
I just wanna say it's impressive and amazing seeing the difference in confidence you have on camera. In the earlier videos, I felt you were a bit tentative but now you're just hitting us with a slightly more manic but more genuine self. I love it! I've always wanted to make videos but get hung up on camera presence and the type of content people want to watch and this is a big inspiration / motivator, that if I could reliably upload stuff I would hopefully become more watchable!
Thanks Cam this is a sick project and congrats on more than 10K subs! I'm sure it'll soon be more like 20K+
Thank you so much! Speaking to a camera is a surprisingly difficult skill since you need to speak to an inanimate object as if it were a person. It sounds easy, but what makes it so hard is that the camera shows no reaction to what you say, making it feel awkward always. Glad you can appreciate the effort!
I stumbled upon this channel a couple months ago because anyone who can make any sort of engine is super neat. Congrets!
Let's goo! 21k subs, this is my first video seeing from you and first impressions amazing production quality with great angles, clear and comprehensible speech.
Awesome video- your delivery of the lines is entertaining making a great combo of comedy and education
I absolutely love the audio dyno. What a fantastic no code demonstration.
Thank you! I prefer mechanical/visual working principals personally
This is some really impressive stuff, looking forward to seeing where this channel goes in the future.
Even thou it is not too much power, the VTEC manage to increase it by over 20%. That's really good!
im glad you are getting the recognition you deserve, these videos are unique and fun to watch.
Some of the coolest, most useful, and educational 3d stuff I’ve seen
Great video, great presentation style and great editing; look forwards to your next video.
His videos are getting better and I’m here for it
50 seconds in and i subscribed... there is a "this channel will be big" kind of vibe comming through! :D
After watching this video, I find it fascinating how I've gained an understanding of various concepts such as horsepower, torque, and the mechanics behind the dyno. Although I can't pinpoint the exact reason why
I love the cassette dyno! Also, that diaphragm solution is very clever!
Thank you!
This series has been awesome throughout.
As a former auto tech, variable valve timing is one of those "damn, that's brilliant" things when you learn how it works.
Found you just a couple of days ago, stuck around. Love the content and hope to see you keep growing. Good luck, and keep up the great content. Bless the algorithm :)
Thank you!
I just found your first video today and was sad that I had to wait for a part two but no you have perfect timing. Love the videos man keep it up
Thanks bro!
Can't wait to see your progress on this engine or on new ones.
glad you blowing up i realy like your content and i woud like to see more of it specialy cuz your ideas are not that boring like other peoples
Your content is just of my type. I like it.
damn you upped the production quality for this one, talk about being prepared for success. glad you blew up with that one video, the rest of your catalog was great. keep it up!
Thank you! Part of it I think can be attributed to me being able to find my "style" after trying over the course of my videos
when I opened my TH-cam subscriptions and saw you, I instantly had to see your new video.
i love your channel and i cant wait to see you reach your potential!
This is insane your awesome
nice to see these things implemented, keep up the good work. : )
3D printed titanium solves the crankshaft fatigue problem ;)
Subbed after watching this. The previous video of yours I watched a few months ago hadn't convinced me but the algorythm knew I'd like this 1.
So this is pretty awesome, but again, it would actually be a good idea to actually add counter weights on the crank shaft to help reduce vibration
Bad ass. I've been subbed for 2 years. It's super cool seeing your Channel grow.
Thank you for the support!
Dude I love 3d printed air engine I've probably watched all of em on TH-cam I'm glad you're doing some now these are so entertaining to me. Also I just found your channel
The sound it makes is so cool!
Algorithm recommended this video to me, and it's absolutely great! It's as if integza and code bullet had a baby! Love your humor and video style. Keep it up brother 🤙
I love finding channels right when there about to get big
After I saw the first one, I was excited for the next. Nice video!
great job as usual zaddy 🎉
Nice af. You deserve all the attention.
A twin cam head would be sweet to see !!
Has anyone else noticed we have seen an absurd jump of quality engineering related youtube channels? Feels like every other day I get recommended a video of some guy doing crazy things with a 3d printer and well edited videos with few subs lol
5:11 Experts are now saying Air Engines should use EGR to reduce Dangerous Dihydrogen monoxide emissions, so I’m glad you’re staying ahead of the game.
Hey Camden, great name btw. I just wanted to say I am very much enjoying your videos, keep up the great work! 👍
Hey, thank you!
I watched 3 of your vids before going to sleep, and you just uploading this one, i guess I'm sleeping 5:30AM
Awesome project. I think bearings or at least homemade bearing surfaces would be well within fair game to consider this still a 3d printed VTEC Engine. Very cool!!
I believe there are some free open source dyno apps for windows online, I haven't checked but I saw somebody use one a while back and it is way easier as it does all the math for you, all you need is the rotating assembly weight and the rpm. I would also recommend getting the valvetrain fixed up before moving onto new motors, I had a lot of valvetrain issues on one of mine as its tuned to make power at around 6.5k rpm right now but you would be surprised how much extra power properly closing valves makes. it also shouldn't be too hard with your motor as its massive and you can easily fit some small springs into the timing system or something. anyways awesome video as usual and its awesome to see your sub count rising so quickly!
I've made some parts that have to move within another, and a simple thing that makes a huuuuge difference is ensuring the grain is either perpendicular or parallel, but if parallel, only in the direction of motion. having the grain/layers parallel against the direction of motion is friction hell
Awesome engine work as usual!
Thanks!
Oh, nevermind, your exhaust pressure idea sounds way better than my governor idea for trigger the VTEX
dam bro you are one smart cat . well done
Awesome video, underrated!!
Something that could greatly increase the power, and reliability is desmodromic valves. I think part of why it was losing power was because of spring fatigue and valve float, both of which would be fixed by desmodromic valves, another is by giving the engine Aluminum Can Cylinder Liners. Instead of two abrasive Prints working down the outer layers of each other, friction could be reduced by the aluminum from the walls of a soda can.
or cutting pieces of metal pipe and inserting it inside of the block like sleeves are done, then adding O-ring or multiple O-rings to the piston (and little lubrication ofc) :)
@@AaroKo Yah, I think Reducing friction and adding seals in the block, and increasing control over the valves are the main way to gain power as of now
@@crazycat7760 yes indeed :)
Nice job! I want to make it in Lego now!
i love the explanation and the math behind it.
also clicking noise every now and then in the videos audio?
Love your videos!!
Regarding the clicky crackles in the audio, iZotope RX can remove those.
I don't know what's causing it since it doesn't sound like you're overdriving or clipping anything. Maybe there's something that's compressing/limiting the audio levels to level it out and then normalize it back to max level, but every now and then one sample of the signal gets chopped. It doesn't snap crackle pop when you aren't speaking as far as I noticed, so it's probably not a loose wire, it's gotta be related to the input signal level.
Your engine braps really good. Obviously a gas engine braps differently from the small explosions combined with the exhaust flow, but I have no ideas on how to get something like that explosion impulse, unless you were to just add a little mechanical snapping sound to it somewhere in the exhaust just for acoustics. Like putting a playing card on a bike's wheel spokes.
Hey, you’re getting 20% power gain with your VTEC!
Honda needa hire bro!!
What you should do for the bottom end and piston is add a liquid lubrication system. An oil pump and filter to get the engine running smoother!
I'm a certified 3d printing autist. I have put well over 10000 hours on various 3d printers and have years if cad experience relating to 3d printing. I have 3 recommendations for the engine:
Filet and thicken the crankshaft
Use oriented infill or increase your parameters settings to achieve 100% infill
It seems thet you have some voids in your print, you should increase the extrusion rate
Damn dude, I want to follow you in doing this! See if I can make it like you have.
I feel like the valve activating the VTEC is limiting the power. Since it requires back pressure to activate the valve, the engine is basically fighting against that, which means its losing power. Try measuring without the self-activating vtec through the exhaust and activating the vtec manually to see if there's a power increase.
Love to see a 4 cly version
You should make a boxer 4, this might help to balance crankshaft forces a bit. Or make something weird with a wobble plate instead of crankshaft like e-rex😅
Nice! Keep these coming
Dang I didn’t expect your channel to blow up this much but I think you deserve it
Also, will there be any more videos on the 3D printed combustion engine project?
There might be :)
Love this!
@CamdenBowen You should reengineer it so that you can put oil in the engine. It won't heat up as fast as should lubricate everything. Might fix your crankshaft problem
When that 3d printed vtec kicks in
Giving the crankshaft a counterweight that counterweights both the unbalance of the crankshaft and piston will also reduce the crankshaft flex.
Inline 4... And I'm waiting for that next video my dude.
sick compressor bro
Just a few thoughts. Would it be possible to install/ make an oil chamber or oil pan? Remember oil also helps with temperature control.
My other thought would be, try printing in a few different orientations. It may work better printing vertically instead of horizontal or vice versa.
I wish you could make an opposed cylinder version (that would increase efficiency a LOT
Or a boxer one that would remove the fatigue issue you have with smaller crank shaft
If you're worried about user repeatability then finding solutions using materials and methods anyone could copy could help.
You could absolutely do things using metal.
Ive learned from watching youtuber/rc and aviation hobbyist that you can get all sizes of brass pipe and easily cut it with a hobby razor by rolling it. You could use these brass pipes as sleeving and bushings for the crank and cylinder walls and other wear locations to reduce friction and heat, as well as increase longevity. Plus, its cheap and anyone with an internet connection can acquire the right brass.
congrats on 69k subs
Thanks dude, now I'm only 420 away from a funnier number
I left this on an older video but it's worth mentioning here. Make your parts as a positive with funnels, minimal infill, and make a mould with plaster. Melt the plastic out and fill it with aluminum. Now you're 3D printing with metal.
.00629 hp at 1200 rpm is more than my civic makes so
your definitely doing good with the design
Brilliant idea using the back preassure!
0.00629hp is about 4.7 watts, which isn't too bad for a 3d printed engine. Your biggest problem for making lots of power is speed.
I found this one channel, cant remember the name, but when I get to it I'll link it. Anyway, he made a modified version of Tom Stanton's diaphram air engine, and made 12 watts at 9000 rpm. If you can get your engine to rev to even 3000rpm, I imagine youll make a LOT more power.
I think what would have worked better for me too is having the flywheel directly connected to the crankshaft and skipping the coupler. It added helped with shaft misalignment but also sapped power
Try printing the friction parts with POM, wich is self lubricant. Also, make it hollow and super glue a solid PLA shaft inside the hollow POM main shaft tree for rigidity.
Cool. You're a cool guy.
COOL VIBRATIONS
I wanna dance
Hi ! Great video, I think you should try to make the engine rev more.
You could put the pressure valve on a separate line coming out of the copper tubing instead of having all the exhaust go through the valve to reduce power loss from excessive backpressure
You could use a piece of pvc as a cylinder sleeve insert ,for a smooth bore
can you do a dyno show the input of power in and out put of power out . this is interesting
Bearings are amazing pieces of tech aye?
just a suggestion add a way to add some oil to the bottom end of the engine its great for thermal heat dissipation and a great lubricant you can reduce the weight on the crankshaft potentially. also you don't need a pump just enough oil to when the crank or piston is at the very bottom or lowest position so it can use a splash based cooling and lubrication your crank will last significantly longer.
also put some oil in the cylinder to slide the piston in this should allow you to fit the piston tighter in the cylinder
just a suggestion i could be totally wrong
Maybe print the crank at a lower infill then fill the void with resin after?
Funny ✅
Informative ✅
Subscribed ✅
I was subbed before that video woo remember me
lots of swag
i said it in your other post, but maybe use some bearings of sorts. like a normal piston engine for the conrod. and bearings press fit onto the ends of the crank
Im printing the whole thing!
Great video as always. glad your channel is blowing up, you deserve it
Thanks dude!
I wonder if you could use household metal items to make a combustion engine. I'm thinking a soda can could make a good cylinder sleeve.