How To Do Perfect Vacuum Resin Infusion of a Carbon Fibre (Fiber) Part - Basic Tutorial
2010 ж. 19 Жел.
1 322 639 Рет қаралды
Video guide to accompany our www.easycomposites.co.uk/resin-infusion-starter-kit - This practical guide explains exactly how to use the Resin Infusion technique to make a strong and light carbon fiber part with a perfect, pin-hole free, surface finish. Follow the video step-by-step, including never shared before professional techniques and you too can master this technique.
Ten years ago!!! That is top shelf dedication. This video is still so relevant in 2021... Well done! 🇦🇺🤜🏼🤛🏼🍀🍀🍀😎🤓
Yes, definately. Lots of our customers do this and they say it improves their results. Strangely we've never needed to do this and we always get bubble-free perfect results but so many of them do it that there must be something in it. The catch-pot itself is generally what people use as a degassing chamber. You could degass several smaller batches in there if you had a lot of resin to do.
This is the best tutorial I have seen on this process! Very detailed step by step. Thanks !
Very thorough explanation , thanks for this mate !
Always top-notch How-To videos. Thank you.
I was impressed as to the quality of the video we should all be so thorough. Thank you
This is the best video I have seen about Infusion. Thank you for sharing
Thank you for the information and a decent video.
Wow, I’m 10 years late to this video and the knowledge is still invaluable. Having issues making a mold for a car door
Well, reach out to our technical dept if you’re using (or planning to use) our products; we’re happy to help.
@@easycompositestv Do you have a US supplier? I hope I don't have to pay the international shipping
I'd also love to know if you have a US supplier.
This is so amazing I am gonna buy this kit and watch this video 100 times.
Fantastic instruction, you make so clear and easy to take on board. Excellent
You need a split-mould and then, like Johnx says, you need something creating positive pressure on the inside, consoldating the fibre and resin to the outside of the tube. Once it's cured you would separate the two halves of the mould to get the part out and extract the bladder/expanding core from the inside of the tube. Composite tubes, particularly where the outside is the 'A' side are pretty complicated.
well i'm convinced ! I think i'm starting a new hobby here ! Thanks guys!
love the sound of those scissors!
Now I see why carbon fiber is so pricey! What a process, wow! This is an excellent video and very well explained. Thank you for the demo and your dedication to producing beautiful carbon fiber products. You are a master craftsman!
Glad you found our video useful!
Yes, you can do this. You might actually still find that peel ply would be fine as rather than using a perforated film which you could then paint with a 2k paint and flat to get your smooth surface. It only takes a single coat of paint to fill the texture of a peel-ply into a smooth finish. The other film to consider would be a breadwrap which is much more perforated than a P3 perforated film and so would be less restricting on resin flow.
Excellent tutorial, looking forward to more videos!
@vr6k3 : 'Post Curing' at elevated temperature is an excellent way to improve the mechanical properties and the Tg/HDT (glass transition temp/heat distortion temp) of a carbon part. The recommended post-cure cycle depends on the resin. With our infusion resin the recommended post-cure is 8hrs at 60*C which gives a HDT of 90*C. You can post-cure in the mould (even still vacced down) or demould first. If you demould first you'll need to ramp the temp up very slowly to avoid distortion.
@xzu : We tend to trim all our parts with a Dremel using a Perma-Grit tungsten carbide wheel - they're amazing and last forever. Never trim using anything with 'teeth', always a gritted edge instead; teeth will chip the composite around the cut line. Once trimmed we use a Perma-Grit block to smooth the edge and then finish with different grits of abrasive paper (up to about 800). To finish either the part is lacquered or we just wax it and leave it at that.
I'm from Indonesia, I can communicate via WhatsApp
Haha! Yes, they are good shears! They're made specially for us by William Whiteley of Sheffield. The blade angle is specifically for carbon fibre and then our touch was to have the serration put on the upper blade not the lower blade so that they slide through carbon without snagging it accidentally. PTFE coating keeps them sharper longer too. You'll find them on the Easy Composites website.
Amazing result!
You can slow the resin flow using a line clamp on the resin feed. Alternatives are additional resin feed ports and or creative use of the infusion spiral and mesh to ensure the resin gets where you need it.
@ariffoys : Apart from at the end of the process where we clamp off both lines it's essential to conduct the infusion under total vacuum. If you had a leak (even one you later patched up with tape) then this could well have an impact on the resin ratio and surface finish of the finished part. From what you describe (and given the thickness of your reinforcement) it sounds like you needed to leave the vacuum running longer and draw more resin out of the part before clamping off.
Thank you very much for your video, it helps me a lot with my learning! Cheers!
@raining0724 : The mould used in this video is made of epoxy tooling gelcoat (the bright green finish that you see) and then backed up (reinforced) with epoxy mould making putty. Both of these materials are included in our Mould Making Starter Kit or can be purchased separately. The import thing (if you're going to use a chemical release like we do in this video) is to ensure that the mould's surface is made of epoxy, otherwise an epoxy part may stick in the mould.
very helpful; thanks for sharing!
great job chief... thanks for sharing... very pro job... good tools, good materials, good mold...
You can still use a moulding process and resin infusion if needs be. It would be very fiddly to do on small tubes. Large diameter tubes could be done around either a mandrel or a split moulding.
@DanFrederiksen : If you're starting with a CAD model the first thing would be to have the pattern CNC routed from tooling block (probably a high density polyurethane block) by a CNC company. It's not that expensive and they can work straight from Solidworks files. You would then hand finish and seal the pattern before setting up any flanges/barriers, coating it in release agent and then covering it in an epoxy tooling gelcoat and reinforcing the back with resin and glass or mould making putty.
The only way to use the resin infusion process to create a double-A sided part (smooth finish both sides) would be to use a matched mould (so a front mould and a back mould) and then use an internal flow medium that the resin could flow through. The one we use most often is Lantor Soric (you'll see it used in our bonnet making video series), this means you don't need mesh for the resin to infuse through the part and so you can have a closed mould (like with RTM) allowing for a double A side.
Hi Don, I'll certainly bare this in mind. I'm not sure that making composite wheels is really a project for general enthusiasts, there's some very real precision required. Certainly assembling multi-component parts is something that we've started covering more with our recent tutorials (the bonnet/hood making guide for example) and we'll have more soon. Stay tuned!
Perfect job!
Thank you for this great tutorial!
You're welcome Eli, we're glad you've enjoyed it.
that looks fantastic...
Fantastic, awesome, and other superlatives!
@apelabs1 : Thank you. We've got lots more 'in the making' including pattern making, split moulding, advanced resin infusion (where the mould is a larger or more awkward shape or when you want to co-infuse a core material like infusion grade Nidaplast or closed cell PVC foam) and, rather excitingly, a how to do your own pre-preg/dry carbon fibre parts (yes, it's perfectly do-able).
a video on how to make the mold would be interesting. getting it smooth must be important and the right surface material
Nice work guys, both the video and the finished part.
Thanks Zooknz, we're glad you liked it.
Wow, now I understand why carbon fiber parts are so expensive. Great tutorial thanks.
Yes, they definately are. If you visit our forum; talkcomposites you'll find people making quad rotor bodies, dynamic soarers and all sorts of other RC planes where they're using resin infusion to make incredibly strong and light laminates.
I would say that is the best looking carbon fiber part i seen made on youtube. The materials used here look like good quality,like the actual carbon fiber looked perfect compared to others. Anyhow great videos. I hope my parts come out half as nice as this.
Thank you very much; that's generous comments indeed. Of course we're biased but I would agree that the materials we use and sell are often quite different from a lot of what's out there and - no surprises - that does have an impact on the end result. We'll never compromise on quality and I hope that's what people know us for. Anyway, stay tuned and I wish you all the best with your project.
Thanks for sharing, very helpful to me...
@gaucholon It's a 2/2 twill, 200g, 3k fibre we use here. 2/2 twill drapes nicely so it drops into the compound shape of this part easily, 200g 3k is nice and light so again it's easy to conform it to the mould.
Yes you can do that and it will not have any negative impact on the infusion.
You say "actually" a whole lot in this tutorial. To be precise, 41 times. Just amused me :) Great process! Some sites charge for their videos like this. Thanks for posting!
Total quality. Thanks. :)
Really cool. Congrats!!!
@DanFrederiksen: Well, the first problem is that even with careful 'wet layup' your resin ratio will vary from part to part, reducing the consistency. Without any vacuum consoldation and great care you're likely to achieve something like 55-60% resin by weight using traditional wet-lay. Less careful laminating will be 60%+ plus resin (by weight) which is a very different laminate in terms of performance.
Hi! Thank you so much this video, it helps a lot how make it easy. But can you give me an idea of how much is the ideal weight of sound box of cello?
Hi, We use Perma-Grit tools which are tungsten carbide tools (like tile cutting tools). They're fantastic and last forever (you'll find a good range of them on our website). You would to the initial cut with a permagrit wheel in a dremmel and then finish the edge using a permagrit sanding block (or just some coarse abrasive paper wrapped round a block) before finishing the edge smooth by using finer grits of abrasive paper. A black wax crayon does a nice job of sealing and polishing a cut edge.
Funny thing is that I'm watching videos on how to do the infusian and only now I realised that I was working in company where we were doing exactly that but without resin itself. We were preparing the release film spiral lines etc for other department to lay it in gigantic molds. Parts were like 5m by 30m big. Thanks for great video.
You're welcome Prezydent, I'm glad this video has helped you to understand what it was you were doing!
This is what i do for a living. Cool to see how other people do this process
Is it dangerous? I mean, do you have to wear some kind of masks?
salvatore cristiano to trim it/sand it after it’s cured yes- but in the dry fabric state it’s safe to cut without a respirator. If you use the resins in a well ventilated area you shouldn’t need a respirator either, but that depends on your individual sensitivity to the fumes
marvelous... I'm building a race-car fuel tank out of carbon fiber tomorrow and I never manufactured anything like that before!
@Zyworski : You can degass but we've never found it neccesary. If you do, you need to be very careful that the resin does not exotherm in the pot whilst degassing causing it to gel prematurely. You need to be infusing 10 mins after mixing at the latest. The RICs (resin infusion connectors) are connected to the tube inside the bag, ours are designed for a 9mm OD tube to be pushed into them. Since the connector is *inside* the bag though, it doesn't have to be an airtight seal.
very well done, huge!
I really liked this video.
Wow. I thought it might be complicated. Looks like something I could do in the basement at home!
Amazing! How about a tutorial on making a part sized oven. what I would like to build is multi part, how about bonding of structural parts to carbon and non carbon parts. One project Th think many of us would enjoy is that of making bicycle wheels, Aluminium rim hoops, aluminium hubs, etc. Thank you again! wow
2:37.... Tip... Lay the carbon so each layer has the weave direction different with each layer. This will result in a much stronger carbon part. Two layers of stagger sheets will be stronger and lighter than the four layers seen in this video. All that said....guy knows what he's talking about and Bob's your uncle
@RiMartinsRi : For the purposes of most composites 'room tempertaure' is assumed to be 20 degrees C. You'll find that pot-life and cure times are generally quoted for 20C or 25C, lower temperatures will slow down the cure (and elongate the pot-life) a lot, much below 15C and you're in danger of many epoxies not curing properly at all. For general composites the lower the humidy it the better. Only condensation cure silicones and some 1-part adhesives need humidy to cure.
Thanks, I was wondering the same thing.
@zliminator : Because the infusion is done under a full vacuum any 'air pockets' caused by the fibre 'bridging' wouldn't actually be 'air' pockets, they would literally be *empty* (no air or anything in them). Then, when the resin is allowed to flow into the part it will automatically want to fill these empty places with resin (because the resin is a path to ambient air pressure so it's effectively pressurised). The most likely thing, if you have 'voids' is that these will fill with resin.
@DanFrederiksen : Well, yes and no! - Generally we would have the pattern machined by CNC. We would then wipe a special 'mould sealer' over the pattern, build up a few layers, and then apply the release agent, then gel coat, then reinforcement to that. In the part you see in this video the gelcoat is the green surface you see on the mould, underneith that (which you can't see) is a mould making putty.... then you're ready to do the infusion!
@dytch2220 : Yes, you could certianly use resin infusion to make structual parts. Furthermore, parts made using resin infusion could be made to have structual properties equal to those of parts made from pre-preg carbon. The actual part made in this video weighs in at 60% fiber, 40% resin. Many of the pre-pregs we use are 60/40 so the fiber content (giving strength to the composite) is the same. There's no room to explain all the pros and cons of the processes but get in touch for further info.
Flange, trim round the flange😂. Great video, i'm off to your site to buy the gear, thanks.
Great explanation
Thanks for the video, and your passion Thanks again
You're welcome Derras :)
Absolutely fantastic and wonderfully informative video
Really appreciate the kind feedback Osei, glad you enjoyed!
@SquirrelFromGradLife : You're unlikely to find a resin-to-fibre ratio lower than 40% resin; pre-preg is generally around 40-42.5%, infusion will always yeild around the 40% mark. Much lower resin ratios would actually jeopardise the structual performance of the composite because there is actually an optimum amount of resin, not just 'less is better'. Regarding post-curing, you can post-cure our infusion resin to improve the mechanicals but it wouldn't change the process for the infusion itself.
Great and useful video. Perfect for beginners to understand
Thanks Gowtham, I hope you enjoy some of our other videos as much.
You can degas the resin if you wish, but letting it stand for a few minutes gets rid of most of the large bubbles. Most of the rest are drawn out by the vacuum pump during infusion. The Aimed for ratio is 60:40 fibre/resin. If you leave the vacuum pump on continuously then you can suck out too much resin ruining the surface finish.
BEST TUTORIAL EVER COMPLIMENTS FROM ITALY :)
That is why if you do it yourself you can save a lot of money and using a tutorial like ours, its not hard to understand the process and even a complete newbie with a bit of practice will start making nice parts.
Is the easy lease stuff the only thing required before laying carbon onto the mold? In the car bonnet tutorials, you mentioned how spraying the mold with a special gel coat that cures between 3-4 horus was required before the infusion.
Really great video! Thank you so much!
Glad you liked it, thanks a lot.
Well done! Will use this video in class in Delft. Congratulations.
Thanks Eric, we have a new video on resin infusion in a couple of weeks as well, it’s the final part of our Arctic sledges series.
@@easycompositestv M
Thank you so much!
@SquirrelFromGradLife : The post curing will certainly depend on the resin system. The resin we recommend can be used without a post-cure or, for improved TG and mechanicals an 8hr cure at 60C (which is pretty easy to undertake) is the only post-cure it needs. Optimal resin to fibre ratio isn't really determined by the fibre or resin, it's basically somewhere pretty close to 40% resin / 60% fibre when you're working with carbon fibre.
awsome video thanks man
Perfect video
@easycompositestv : Thanks for the fast response. My concern has more to do with humidity once the fibreglass is very hygroscopic. I know that regarding to room humidity the lower the better, but what is the range of acceptable and not harmfull values in a composites shop? 0% to 50% is acceptable? What is the upper limit? Will it be 60%, 70% or 80% or any other value in between?
Yes, dead-right. It's 200gsm 2/2 twill 3k fibre. It's pretty much the most common weave and weight of carbon fibre. If you're having any trouble sourcing it then please get in touch with us, we stock thousands of metres and offer next-day delivery.
@RiMartinsRi : Yes, definately. We'll make a video to show how it's done but basically you need to perforate the foam core (approx 15mm centres, 3mm holes) all the way across its surface. The resin will then make its way along the top skin (guided by the infusion mesh) and then drop down through the holes to wet out the bottom skin. We make a very large table (with a 30mm core) in this way and it infuses perfectly. You can get core material that is ready-perforated for infusion.
Nice, keep sharing my friend
@DanFrederiksen : We use a company called Pentaxia in Derby (UK). They do machining for F1 teams and work to the highest standards possible. They machined an epoxy tooling block (we supplied the block) that was 30cm x 80cm which we'd arranged patterns for 5 induction funnel rings onto for less than £200. If you think that it would take maybe 3 days to hand-work those patterns and the finished result would be nowhere near as accurate then I'd say that's good value.
Hi Thanks for the super videos, current project I require to make a sandwich layered 4 feet diameter tube. The intention is to vacuum bag the mould.Would it be possible to use a piece of Perspex as a mould with the appropriate reinforcingon the back of the curved Perspex sheet. Will the resin effect the sheetthanks
Great videos. Filmography. Pro.
Yes, before we draw the resin through.
Did you place the cb symmetrically so that when the vacuum and resin infusion process was complete it was even? And not a curved or bent final product?
@apelabs1 : When using an epoxy gel and polyester to reinforce the mould (not a conventional system but it does work) I would recommend 'double gelling' with the epoxy (just a few hours between the two layers) then letting that FULLY cure before reinforcing with polyester resin and CSM. No need to a polyester gel. As for the pre-pregs we'll suggest a 75 degree curing pre-preg, vacuum only (no autoclave). A vac pump and a decent but simple 'hot box' oven is all that's needed.
@easycompositestv Good to know and its quite a nice thing for a single person operation to be able to make carbon fiber parts like that. But does the optimum resin amount and post curing not depend a lot on what kind of cloth and resin used?
Thank you very much !
@matthieutje65 : Peel ply on the inside and outside will certainly give you a none glossy finish but it will be reasonably textured by the peel-ply. If that's what you're after then it's fine, if you just want a smooth, none-glossy finish then you might want to just use a scoth-pad on the finished part to rub the gloss away. I'm not sure what the optimium resin uptake is on flax but I think it's around 50% by weight to weigh the reinforcement and plan for the same weight in resin.
Thank you so much 😊
this was some good stuff
Fantastic video - Many thanks. Website URL noted - I'll be over to get some stuff in due course!
Resin infusion has been successfully used on a large scale for boat hulls, aircraft parts etc so it is theoretically possible. Obviously you would need to approach your FAA representative for advice to ensure your work complies with the necessary standards.
Very good video. Thanks!!!!!!!!!!
Even using this type of mixer arrangement it's quite difficult to ensure there is no airation of the resin. Generally, we don't ever find a problem with it but if it's a concern or is causing problems then the only foolproof method would be to vacuum degass the resin, either in the catch-pot itself (being careful how you put that in and out of the system) or in a dedicated vacuum degassing chamber. We sell these on our website.
Thank you so much for the video. Very helpful... in fact the only one I could find that clearly explained the whole vacuum resin infusion process! I do have a question though... why not clamp the line that is connected to the resin and let the vacuum pump pull out ALL of the excess resin into the catch pot?
+Clayton Birchenough : Well, you can do it this way round but if you do you're almost guaranteed to have some pin-holes on the surface because the laminate will become too dry. The trick to a perfect cosmetic finish is to let some excess resin into the laminate (just fractionally over the optimum 60/40 ratio) which will work miracles for the surface finish and eliminate any pin-holes or voids.