Did I Solve Miter Saw Dust Collection?

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Dust Chute for 12" Saws: etsy.me/3tChMhw
Dust Chute for 10" Saws: etsy.me/3Bo1ywZ

I teach a high school principles of engineering course and will show this to my students. This is the first video I have EVER commented on. You have made/uploaded a very worthwhile video. You have shown how to mock-up, prototype, test, and evaluate results and BY FAR THE MOST IMPORTANT, show kids how to “fail” without crumbling into a heap of quivering jello. Well done!

I've used other (10" saws) previously and was pretty surprised with the speed and cutting ability of this Dewalt saw.I have bolted mine to a table to minimize movement which I highly recommend.This is a Great saw ua-cam.com/users/postUgkxPeGkHOMe05FySypTOvYumxMn-xi39oRe with a light to see your cutting line (not a laser line).I'd recommend this saw fro anyone looking to upgrade from a 10" miter saw.

I like that you showed that it didn't work. I would love to see how it works out. I have found the same results in some of my 3D modeling and printing projects. I would be fascinated to see the result you come up with for the saw. I have the Bosch 12" glider and have been kicking around some ideas for a Dust Collection solution myself. I really liked the poster board idea cause getting the measurements off the machine has always been a struggle.

I’m a full time finish Carpenter. The answer for me after years of trying to solve the dust collection problem was custom made dust “boots” from duct tape. The key is for it to be long enough and wrap around the side of the blade slightly. When it gets cut up from all the bevels and miters and compound miters I just whip out my roll of duct tape and make another one.

The dust collection on my Makita 12" unit works fairly well. Like, you notice a massive difference if you forget to turn on the dust collection. It has a dual collection setup on it and the lower intake is a flexible rubber. It doesn't SOLVE the problem but it works.
I love videos like this because it's totally great to show failures. It's how things go in a shop!

I haven't actually read every comment and this just might have been suggested already, but I would try and focus on the airflow that's caused by the turning of the blade ... that is where the dust will go. Now, when you introduced your duct, it changed that flow and created a new stream above and around your device. If you want this to work, you'll have to capture and direct that flow of air when you want it. I would try and get a couple of sticks of incense or something else that would create smoke and watch the stream both with and without your device. It should be very enlightening. Then, cut some cardboard and get an idea what it will take to direct that smoke effectively into your device.
I hope this makes sense, good luck and I'll be keeping an eye on this thread. Cheers!!

Lol, didn't see that ending coming. Look forward to the next iteration!

I think to maximize dust collection it needs to move with the saw blade and be as near to the blade as possible to avoid blowing it all over the place. Great video. I appreciate that you showed how the first iteration failed. I work in R & D and not every thing works like we think it should the first time around. Keep up the good work Travis.

Efficient dust collection is determined by several factors:
-capture velocity; the capture air velocity must be greater than the dust generated velocity. Dust velocity will be determined by the calculating the tip velocity of the blade (blade circumference in feet x rpm) i.e. the dust will leave the blade at the FPM tip velocity of the blade.
-air volume; the air volume is determined by using an industrial ventilation standard (Q=2.8LVX). Q=air volume, 2.8 coefficient, L=length of slot in feet, X=max. distance in feet from hood to source.
-hood design; all nuisance dust collection hoods should have a flange around the slotted opening. Without the flange a large percentage of air will come from around the side of the hood instead of the front...where it will provide the best collection efficiency.
For "fun" I ran the calcs and came up with numbers that are not even close to being realistic....which is why, for my saw (12" compound miter) I run a 2.5" hose to a shop vac and clean up afterwards! 😉 P.S. 35 years of industrial dust collection experience...

I have come to the conclusion after many years of using a chop saw, that they are engineered to fill your shop with sawdust and to cross cut wood. The best way to use a miter saw in your shop and to keep the flying sawdust down, is to use it outside your shop. The next best at keeping the flying sawdust down was a flexible, removable wide mouth pickups just behind the built in saw dust pickup port. Even though the shop still had saw dust everywhere, I was amazed at how fast the dedicated shop vac filled up using this modification. Hint: Look into using deflectors under the long arm supporting the saw head to keep the high speed stuff in the area where the air is being sucked up, till is slows down and can be sucked up.

Get a zero clearance insert with a possible vacuum port when you attach the two together. This way you have suction at the moment of cut and at the rear. Possible you may need to increase the suction power needed as well.

This is my favorite UA-cam video you’ve posted so far. So much thought, design, and time invested in a result that didn’t go as planned. I shared this with my wife and she loved it too. Keep up the great work, thanks for keeping it real, and please keep engineering to solve this issue we all struggle with!

I would hook up the original port into a Y connection and give it a try. The blade causes a turbulence that shoots dust upwards into it.

I appreciate your honesty in posting a video that didn't have good results. You're absolutely correct that this is the first iteration. Step back and rework. I love that process.

That's why I left my miter saw on a rolling bench and take it outside when I want to do some cutting. Easy to blow off with the leaf blower and the shop stays a lot less (not completely) filled with sawdust.

As an X trim carpenter now registered nurse home shop guy I completely agree with your comments on dust collection with chopsaw. I finally got around at us adding dust collection to my home shop to save my 60-year-old PACU RN now lungs and would love this for my old Makita saw that still is one of the biggest workhorses I have.
MAKITA LS1214FL 12" DUAL SLIDE COMPOUND MITER SAW WITH LASER AND FLUORESCENT

with the plastic cowling and dust collection hose - be cognizant of static. The concentration of sawdust to me suggests either an unanticipated airflow or a static field. Also I would consider introducing compressed air to direct material where you want it to go. Just some thoughts. I read through a good number of comments, but apologize if this has already been mentioned

Respect. You showed all the steps, you showed that it did not work, you showed that there are more ideas to come. Thank you. I never comment on videos, but I had to comment on this one. Good luck on the next prototype.

You mentioned the key at the beginning: momentum or velocity of the chips. If you widen the capture shroud, a lot, and make it deeper, you have more surface area at the entry as well as more volume in the acceptance chamber will mean less fighting the bounce and turbulence generated by the blade.

I have a system I'm pretty happy with. I built a shroud/catch box behind my 12" chop saw like most of us end up doing. Them I used a contractor style TS dust collector chute (roughly 12'" funnel necking down to 4") offset under my chop saw, with the back of the chop saw fence bisecting roughly half the 12" circle. Hooked up to my 1.5 horse DC, it creates enough vacuum to back pressure the dust into the shroud area behind the saw. Every now and then I turn on the DC and brush the saw dust from the corners of the shrouded area into the DC shroud. It's not perfect, but way better than anything else I've tried or seen used by others. I think the origins of this idea is from Norm.

One thing I think gets overlooked when talking about dust collection is speed of cut. A certain cut is going to generate a certain amount of dust; the slower the cut the more the dust collection has a chance to collect it.

Señor CAD Designer here. I don't understand how these companies don't offer standard accessory options for dust collection. For this application, it could be done in a week by one designer, including testing "first articles" from fast, accurate... expensive.. printers. Open the released assembly and sub assembly files, create an envelope based on combined views from all the different worst case scenario arm positions, then use flow analysis tool to tweak collection volume and efficiency. They could even offer two parts. One for dedicated 90* and another for all arm settings.

I too have often thought about the dust collection systems available to the modern woodworker who, even to the present day , usually has to put up with that uncontrollable workshop mess!
I watched your video with great interest as also I have watched two others who have also gone to extreme lengths and had partial success.
At 76 years of age I spend more time thinking about problems than actually physically dealing with them….like dust collection.
What always comes to my mind, when stepping outside of the normal box, is the consideration which never seems to be given to A) the high speed of the dust coming off the saw blade which, via our own efforts is then directed into the path of the very much slower speed of the suction draft.
It would be fairly simple to utilize the blower side of an extraction unit to direct a flow of assisting air onto each side of the saw blade to encourage better removal of the dust by pushing the dust into the suction draft!
Just a thought
Thomas.

Appreciate your videos. Most post the “look how great it … ‘insert what you may” ….(works) (assembled) (stained). Like many, If not all of us, deal with the same problem and done our best to address it. Your videos are real and truth …. here’s the problem, here’s what I did to try to fix it…nope didn’t work.

When using a compound miter saw, you will adjust the miter way more than you will adjust the bevel. Your saw table width won't allow you to adjust full miter from left to right. Fix that first. Then good luck with the dust. Best way I have found was to build a cabinet around the miter saw.

I love that you show the process of design and discovery and that it may not always work.

I’m glad to see someone is addressing the dust issues with these models. I have the Delta Cruzer and wow the dust. Looking forward to seeing your future results!! Keep on pursuing Shop Greatness!!

Just ran across this video and was quite interested in this sophisticated attempt at a solution. I bought a Festool kapex because of the claimed superiority of it’s dust collection but I am quite disappointed at how little it collects. My solution was to buy 2 veritas magnetic dust chutes and epoxy a large steel washer on each side of the rear housing and “Y” off the single dust collection hose to the 2 chutes, this was in addition to the built in dust collection. Like your solution miter and bevel cuts will remove a chute from one side or the other but usually not both. There may be no perfect solution but I like where you’re going. Keep up the good work.

I did a video on something similar on my channel, have thought about redoing it using 3d printing. I think the biggest difference I noticed was having a top on the box as most of the dust shoots up. I used brush strips which allowed the dust shoe and blade to pass through but kept all the dust inside the box to get sucked away. Worth a shot!

Same thing with things I tried on my Bosch Glide, especially when I remove the on-board dust collector. I noticed in videos that the one that people say that works best, the Festool, it seems the most important part is how robust the on-the-blade chute and suction is, and as I found out with mine, that is the minimal you HAVE to keep - which of course it is the hardest to design around. Yeah.

I think if you change the upper piece to take into consideration the coefficient of the flux capacitor and maybe reboot the matrix to maximize the left ventricle I think that should help get the results you are looking for. Keep up the shop greatness. I know I am! 👍🏼😎

I like how you printed it in parts, you were definitely thinking ahead!

Definitely keep the failure videos coming, I relate to this a lot! 😀
With the benefit of hindsight, I think the saw blade functions as a pretty powerful fan that creates a surprisingly large zone of high air pressure. The cause of failure is that the collection system is a weaker fan and therefore lacks the volume/capacity to capture what comes off the saw. In short, what you made is a drinking straw trying to capture Niagara Falls.
For a next iteration, I would try to make a system that uses the force coming off the blade rather than fights against it, and of course larger capacity.

Thanks so much for sharing this! I love that UA-cam makers are showing their efforts when things don't go according to plan, which is what happens to most of us most of the time! :)

You have to remember that with a cut the wood stays on the blade for a short amount of time, you'll have to figure out the angle which it gets released from the blade. Maybe get in touch with some high speed/slow-mo camera guys for content. But with the dust port on the miter saws generally above from the company is just the easiest. As seen below a curved collection with dust port on the side but it might get in the way of the arm. Or CNC a new arm to have the dust port out of the side.

My saw isn't sliding, but I have the saw enclosed in the back and then put two masonite boards either side with cutouts just big enough to clear the downward motion. The masonite, just leans on the back of the fence. If I need to make a miter, I just pull the two boards. I originally designed the back to curve down to a dust collection port for a shopvac underneath, but I found that it worked so well, that I didn't need the suction. I removed it and just vacuum it out whenever it gets full. That left space to put a big drawer underneath to collect the cutoffs.

Travis, please keep going and solve this dust issue. The Ridgid Mitersaw is my next adventure, and I would fully support purchasing one of your 3D prints to add to my shop. Good luck brother.

I have the Delta Cruzer and this makes me so happy to see anyone try and help the terrible dust collection of the saw

Love the idea! And mixing 3D printing into the shop. I cannot wait to see the follow up design/video.

That effort to show the most honest result is much appreciated👍🙏 That's the science

Try making a large curved "back stop" at the rear with the vacuum hose on the side so that the airflow just channels the dust into the hose.

It's really great to hear someone approaching the problem from the standpoint of an engineer talking about particle velocity, point of generation and air handling capacity of the collection system.

From the research I’ve done on mitre saw dust collection you would have been much better off getting a Makita. The two dust port collection is very effective. A good portion of the dust follows the blade around circumference and bypasses the single port at the back. A blade shroud collector is the difference.

Great video! The Festool Kapex is considered by many to have the best dust collection in this category. You might look at what Festool has done which is completely mounted on the blade hood. I could not afford a Kapex so I went with the Makita LS1219L. Makita uses a two-prong approach with a hood-mounted design similar to the Kapex and a static rear-mounted dust catcher. I thought this should work great but soon discovered that it's not very efficient in terms of air flow. A strong shop vac didn't work well but a Bosch VAC090AH dust extractor did. From my experience, the suck behind the catcher is an important factor as well.

Love love love this type of content, pushing the boundaries is one of the reasons I bought a 3d printer, good job man, remember we learn more through failure then success, so consider this a win…

I got makita Makita LS1019 and it's dust collection is the best I ever used, but after some minor adjustments(I just rearranged dust port to work parallel on two flanges rather than in sequence one after another) Even kapex was second to this one in dust collection. It is fairly simple, just two dust ports with rubber sleeves, works fine on miters. Most of the dust just bounces off the extendet fence(It just can't be moved a little sideways, only removed completely)

Film the saw in low light with a narrow beam flashlight lighting up the sawdust flying off the blade. Identify the pattern and the spread and then redesign accordingly. You need to observe and understand the pattern of dust your particular saw is producing before designing a solution.

As many have stated below greater air flow will always help. Velocity is always the answer.
Travis today another video popped up on my suggested list from Rings Workshop. He headed down the same path as you with trying to design a better dust collection system. He had pretty good results with his methods. Together y'all may solve this issue. Interested to see what your final design looks like. One thing Ring Workshop could have done is to put collection hoses on both sides. His brush design improved the results dramatically. Thanks for the video.

It would be nice to see the results with the supplied dust collection.

It is sometimes reassuring to see that others can spend a lot of time over thinking and building a gizmo that should, in all respects, solve a problem…..only to have it not work. Most days I think it’s just me with that luck! Keep slogging along!

Thank you for showing what failure really means, “First Attempt In Learning!” Humans learn by failing and somehow along the way it has gathered this negative connotation. Failing is as important if not more important than success at times.
I’ve always really enjoyed your videos and how humble you are. I’m really happy that you choose to keep making videos when early on you didn’t want to. Also grateful for your wife as she encouraged you to keep going. I wish you the best of luck and continued success!

Basically, you had an example of laminar flow interacting with the dust particles. Instead of vacuuming the dust, the 3d printed part acted as a low-pressure barrier and the high-pressure debris/saw dust bounced off the part opening and around the side. Without the dust collection, the stream was directed to the bevel gauge. It would be interesting to see what would happen if you tried to use the saw with the 3d printed part installed without the vacuum on.

Try dust collection beneath the saw as well. I cut a hole in my bench about the same size as the saw's insert. The down draft really helped reduce the amount of dust that went to the back. I did this in addition to the supplied dust collection shroud at the back and I found that it worked better than expected.

I solved dust collection 2 years ago. Just wheel your miter saw outside.

Travis, I haven't read through all 440 comments. But I think a few have touched on what I see. The velocity of ALL the particles before the dust collection is fast which cause it to go literally everywhere. After you add dust collection you have created a small negative pressure area that slows the particles but not enough to be vacuumed. That's why they end up on the back little horizontal surface and not everywhere else.
Also it looks like a lot of particles exit the blade at a higher angle hitting the saw frame between the first hinged joint and the back edge of the saw blade. These particles are then bouncing off the sides 3D printed part rather than entering the narrow opening.
Maybe open the top and face of the 3D printed part to allow more particles to enter the negative pressure area of the vacuum.
Looks good, I'm excited to see if you can solve it.

Travis nice upgrade! Sorry the dust collection didn't work. Hang in there. With all the technical advice provided in the comments the solution should be found to address your issue. I'm glad you decided to publish the attempt. It made me feel like I'm not the only one that stuff like that happens to. I placed the dust collection ports to close to the saw on the enclosure I built for my DeWalt. Some of the dust gets collected but the majority of it collects at the back of the box. One day I'll relocate the ports to the rear of the enclosure. I look at the upside in the fact that the dust is at least contained.

I really appreciate that you mix interesting content in during the ad section. Nice move!

SCIENCE! I love this. It's always cool to watch your engineering brain go at a problem, and as usual you show your process really well. Really enjoyable

I love the iterations and solutions you come up with for things. You have a very unique voice in this space.

I tried the whole shroud across the front of two cabinets on either side of the saw. Basically there was a very narrow window for the dust to go trough with over head dust port. All it did was create a vortex with dust swirling around and very little getting collected. I scrapped the whole thing. What seems to work best is a simple shroud around my dust hose set back away from the saw. Not perfect but it works pretty well.

Great video because it shows the power of 3D printing, but also shows that not every solution works first time. Hope you nail it Travis!

Loved this! I'm a science teacher during the day and a woodworker . . . well, when there's time! Iterative design is where it's at. I've been messing with my Bosch chop saw's dust collection since day one. Can't wait to see what's next in the design cycle!

Honesty in front of failures is not something we come across so often on social media these days. Hats off to you sir.

I just bought that same saw yesterday. Very interested to see what else you come up with.

I have the Delta version of this saw. Super excited for you to solve this and sell the STLs!

Like your approach, you manner, and your humor. Also video tech excellent...sound, light, and not useless verbiage. Thank you

😊I spent this last holiday weekend trying to solve the same problem on my new DeWalt cordless miter saw. The sawdust seems to travel in three vectors: Strait back at a low, middle, and high angle depending on which portion of the cut you are making. Long story short, this requires three different pick-up points for a vacuum , and a single 5 horse vacuum does not have the power to provide enough suction. forget being cordless on a job site and good luck not blowing breakers.

Build a box behind the saw with a decline at the bottom with a hole for the dust to drop down into another box for collection.It works.I used it in the cabinet shop.

Thank you for showing that it doesn't always work like we want it to. Keep up the great work.

I tried the same thing with my Delta 12" slider but I did not get nearly as far as you did. Really like the idea of the profile duplicator. Some of those shapes are impossible to capture otherwise. I'm with a lot other commenters that airflow could help a lot. I have a dust collection system that is 6" pipe in the ceiling and stepped down to 4" for the wall runs so I have standard 4" blast gates. My idea was to use a Y adapter to step down from the 4" to two 2 1/2" ports and then run each of those two lines to either side of the "contraption" which would essentially double the airflow that you had. If work ever stops getting in the way I might give it another shot. You have inspired me.

Thank you for showing that it is perseverance that will solve problems and failure is only one step closer to success.

Deck mounted dust collection on miter saws are secondary to blade shroud dust collection. You have to have high suction at both points to perfect it. I have a 12” dewalt slider that is nearly dustless even in MDF

I love that you are trying to tackle this. I would add zero clearance insert and how about increasing the mouth of the collection to match the width of the upper fence, or replace the upper fence with a 3d print honeycomb pass through. Increasing mouth will reduce suction but your missing so much anyway. I really hope you figure this out. I’m allergic to most types of wood dust, but I love wood working. Dust collection is a must.

You need to build a containment hood and box in the back of the saw saw, add a downdraft table and your 99% collecting, include some low profile lights. I've been collecting dust for 20+ years on a production scale, the router was my favorite to build, 100% collection.

Been there many of times so I can totally relate but keep iterations going. I am confident that will figure it out. I appreciate the transparency and showing the results. 👍🏼

Alright, you got me to watch because it’s such a huge problem and I was hoping you solved it. The companies that manufacture these saws have plenty of engineers on staff to design, build, and modify these saws but they’re not focused on dust collection. We need to make them focus on it by including dust collection in every review of a saw, then they will realize they need to step it up to be recommended.

Appreciate the attempt, and the honest. I have tried several methods myself, and i hope you solve this!

So, you really ARE an engineer. Sometimes, designs don't work. It's AWESOME that you are humble enough to not only admit that something didn't work, and also to publish a video with it not working, but doing so without haven't a solution. All that to say, GREAT VIDEO! (No sarcasm at all, it's just great to see someone this honest. ;)

SCIENCE!
If you never fail, you are not doing it right! I love your engineering and I know you will solve this frustrating problem for all of us!

I was planning something similar when I had my 12" Delta Cruzer. I later sold it and planning to get a Bosch 12" glide. It is arriving in a week, then I'll work on my ideas for the bosch saw. Good to see your approach.

I have the same vacuum and separator under my miter saw. I also have a Jay Bates inspired station. The enclosure that i have around the saw only really serves to keep dust from flying out away from the box. It does a pretty good job pulling in floating particles. I still have to periodically vacuum out the inside of the enclosure.

NIce video - super glad to see that you made a video about your attempts, even though it didn't work. In your next video, you should also show the factory dust collection results as part of your baseline testing. Keep up the good work!!

I admire the fact that you showed your failure and were perfectly honest about it! Kudos!

The enclosure is the only method that works reliably imo. You can improve it by having a large collector plugged into it, and having it all funneling pretty well, but in my experience, that's the current pinnacle. There just simply isn't a consistent enough direction of the duct expulsion for anything other than an enclosure to keep it in. Just add a magnetic side to the enclosure to be able to open it and once a month do a little cleanup and you will be fine. It isn't the most aesthetic solution, but it is what it is. The tool is just never going to be designed by the manufacturers to prioritize collection, as one of the main customer bases is the contractor who is doing their cuts either outdoors, or in a garage/empty room that can easily be swept.

Hey Travis, I tried to solve the same problem with my 12” delta saw years ago. When I looked closely at the spray pattern of the ejected dust, I could see that much of it was simply going wider than the narrow factory boot that is right behind the blade. My solution was to take a plastic floor sweep and used some of the material to make “wings” that effectively widen the boot, blocking the overspray so that much more of it finds its way into the boot. I can send you a picture if you want. The wings track with the saw for miter cuts as well, but mine just a single pivot, not rails or compound knuckles.

I have the Delta Cruzer 12 and have the same issue. I think the only thing that can save this is the miter saw tent thing that goes around the entire saw. When you cut, the saw dust is blowing past the point where the suction is and it just goes all over the place. Another idea would be to somehow encase the saw blade similar to the track saw. Keep grindin' dude & I love your content!

humility is impressive. good for you. good luck on the next try

Great video! I love seeing the engineering design method at work in the shop and hopefully the results of this test can give some good data to redesign from.
One thing I know a few other people mentioned: check the airflow path of the dust. I think what might be happening in your design is that the dust collector isn't strong enough to pull dust through it, but is instead just refocusing the dust path to the back of the saw. Might want to try opening up the mouth of the intake to allow more air/dust to be sucked in.

So honest, Travis. Not everyone would post such a video. I have mentioned before that dust doesn’t so much as generate in your shop but is frightened to settle 🌞

The struggle is real. I have been working on improving the dust collection on my miter saw. I like that you showed that it didn’t work on the first try. Keep at it, and you will get it solved!

Great video. Don’t you stay up to many nights figuring this one out. Anybody with an army of three-d printers is going to come up with something.
Absolutely a fun, learning, watching vid. Thanks for taking the time it took to put it together.
Good luck solving your problem. I’m looking forward to seeing how you capture the saw dust on your new Rigid miter saw.
From Missouri

So creative and I was rooting for you the whole time! You almost need to encase the back half of the saw while trying to keep all the clearances. Valiant effort

Travis try looking at the bottom of the miter saw as the track where blade runs in the base is the is the one place everyone does not take into consideration when looking at dust collection, think of the miter saw as a upside down table saw.
The table saw always has dust collection above the blade as well as below the blade even with a zero clearance insert, plus a table saw blade rotation is towards the operator.
The miter saw has the same principle as the table saw except the the teeth of the blade rotation is away from the operator on the table deck.
The reason miter saws are difficult to get really good dust collection is the bottom of the saw is always blanked of with the deck of the miter Station.
The underside of any miter saw has perforations in the bottom to let the wood dust and chips to fall to the floor when they are used at job sites on saw horses.
So when you see miter saws being used their is always a big pile of saw dust under the miter saw.
The problems with miter stations their is no down draft to the under side of the miter saw so the air pressure that is made from the rotation of the blade is channelled to the back of the saw.
The more suction to the back of the saw produces more dust accumulated higher at the back of the saw.
I hope that this is helpful?
I am a metalwork engineer and I have alway seen the bottom of the saw blocked off by the shelf it is on.
Yours Philip Burrows in Overton on Dee, Wrexham, Wales, UK.

as i've always said.. in 3d printing/design, there are no failures... just learning experiences.
i will say i enjoyed watching your process.

I just subscribed. I'm absolutely impressed that you took the time to fully edit a video in which you failed to solve the problem at hand. That's honesty, and I look forward to watching you sort out the problems with your design in the next video(s). Great job detailing the design and engineering process as well.

I’m equally surprised! Amazing idea and can’t wait to see v2.0!

Maybe add a zero clearance plate that is ducted to the 3-D printed housing. This might add enough down draft so that momentum of the wood chips/dust would be slow enough to be captured by the housing. I used cardboard to make a dust collection housing and I found that most of the chips/dust hit the front of the housing, so I didn't bother repeating that design in plywood. Looking forward to seeing your next iteration.

Bro! Hats off to you for the ending! Ive recently thought about building a hood and using a skirting (canvas material) that can move with the miter and compound (like an accordion) after watching this im convinced just some saws have terribly designed collection ports and might just be happy with what i got so far.

One thing I've noticed on my Dewalt saw that I've hooked up a 3D printed dust port to and had success with is that mine is set back quite a bit toward the wall compared to yours. Not sure if dust and chips slow down more back there and that helps the vacuum catch those but that's my theory. Having the vacuum close to the blade means you're having to overpower the speed that the blade is slinging the chips.