That scanner board is Z axis protection, if anything breaks the beam, it would stop moving down. Or if the board is hit first, the switch would also disable the Z axis.
Just my 2 cents. I worked in a metal finishing shop (electroplating) about 20 years ago. We used an X-ray fluorescence device similar to measure deposited (plating) thickness. This method superseded beta-back scatter for measuring. The equipment was very expensive. Tens of Thousands of dollars. They were very accurate. On special parts we measured with micro-cross section (cut parts in half and measure plating thickness under a microscope) to verify thickness.
Mike, I love when you upload a teardown! :) I'm subbed to the EEVBlog too, but his teardowns are rarely as interesting as yours are! Keep up the awesome work and thanks!
Naphtha. Use gloves. Cleans anything that it doesn't melt, and melts anything that it can't clean. You can also use the lighter gas if can't find Naphtha.
Acetone also works well. I have a 'step' process when it comes to solvents. Start with the 'nicest' end with the meanest. Naptha, acetone, xylene, mek, 1,1,1-tce. If none of them can touch it - I don't want to mess with it.
I work at a metal plating company that use xrf machines and they range from 30k to 60k new, cheers Mike always wanted to know what was going on inside them ;-)
Very enjoyable teardown of an X-ray Spectrometer. Practical use of *EEVblog µRuler* at 19:15 and many useful parts to recycle at the end. Camera, Steppers, Power supplies, Tubes.
Actually you can focus X-Rays, if you use mirrors at a very shallow angle. You might find more details by searching "Kirkpatrick-Baez mirror". Nice teardown, life was so hard before non-cooled silicon drift detectors became mainstream...
For some reason I thought that X-ray tubes have rotating parts inside them, but I don't see them in the video. Did you take them off for the demo, or are they just not used in this kind of tube (only on some other kind e.g. higher voltage), or are they there and I'm just not watching closely enough?
You are right. Some older tubes will feature a spinning tungsten anode inside to keep cool via heat dissipation as they get very hot from the electron gun. Tungsten's melting point is 3,400 Celsius and conducts heat incredibly well. In some cases, the tungsten in xray high power tubes have been known to melt so it helps to increase the apparently surface area to the exposure of electrons, and in turn helps save a lot of bother with external cooling.
Can you add in the description a line about the quality please? I know it's not really your "fault" (I read the comment where you explained about software update)... but I've just changed a bunch of my graphics settings and this happened to be the 1st video I tried to watch since - spent a while assuming it was something I'd done wrong!
So, I take it, the x-rays you were playing with in the end weren't that dangerous? The camera didn't realy pick up any of them. Very interesting video!
the source of gamma he was using is an old fiestaware plate, that has uranium oxide in the ceramic glaze. it is a very low level source of gamma radiation and is safe to handle. also the sensor he is using is very sensitive to gamma radiation. some homes in certain parts of the uk need to have a ventilated basement due to naturally occurring radon gas coming out of the ground!!
![ไลฟ์สุ่ม iPhone 295 บาท... โกงมั้ย?[ โกงมั้ยครับ ep.97 ] | DOM](http://i.ytimg.com/vi/gdstHEE4UUE/mqdefault.jpg)
Mike ! PLEASE make videos more often, You can seriously make second income from them, because You are just so good, You explain everything great !
Your right we like old extensive odd equipment. Most things I own I have had a look inside. Even the car has had panels removed so I can peek inside.
Hello, I used to work for CMI, and it's possible I built that unit!
That scanner board is Z axis protection, if anything breaks the beam, it would stop moving down. Or if the board is hit first, the switch would also disable the Z axis.
What a lovely surprise to find in my sub box!
Just my 2 cents. I worked in a metal finishing shop (electroplating) about 20 years ago. We used an X-ray fluorescence device similar to measure deposited (plating) thickness. This method superseded beta-back scatter for measuring. The equipment was very expensive. Tens of Thousands of dollars. They were very accurate. On special parts we measured with micro-cross section (cut parts in half and measure plating thickness under a microscope) to verify thickness.
Fantastic as usual Mike ! A real treat to watch ! Thanks for all the work !
Mike, I love when you upload a teardown! :) I'm subbed to the EEVBlog too, but his teardowns are rarely as interesting as yours are! Keep up the awesome work and thanks!
Maybe it's time to do a teardown on the camera. :o
Don't turn it on - take it apart - then turn bits of it on! Really great video Mike - like the one you did with photomultiplier tubes...
A jackpot of interesting electromechanical gizmos!
@mikeselectricstuff I really enjoyed this tear-down Mike. Thank you. :)
methylated spirit works well for silicon, and it evaporates nice
Naphtha. Use gloves. Cleans anything that it doesn't melt, and melts anything that it can't clean. You can also use the lighter gas if can't find Naphtha.
Acetone also works well. I have a 'step' process when it comes to solvents. Start with the 'nicest' end with the meanest. Naptha, acetone, xylene, mek, 1,1,1-tce.
If none of them can touch it - I don't want to mess with it.
Happy Easter Mike :-) God bless you my friend - eat lots of chocolate! :-)
One of your best videos!
EEVblog ruler +1
Nice find, lots of goodies in there. I guess the x-ray tube filament was definitely open?
So with best sensitivity from 6 to 12 KeV, that's right around the midway point of soft X-Rays just getting into where hard X-Rays start.
Tearing down an X-ray machine. What are we looking for first of all? The PCB and the components ;)
Soooo interesting great as always .Thank you .John
you gotta love precision lab gear, looks home made but costs more than the gdp of small countries
I work at a metal plating company that use xrf machines and they range from 30k to 60k new, cheers Mike always wanted to know what was going on inside them ;-)
At 13:15 they are Z-Protection LED's. The idea is stop the carriage being smashed into the sample, possibly damaging the detector window.
The triax connector looks like the same type as in the eevblog Agilent B2912A teardown.
Very enjoyable teardown of an X-ray Spectrometer. Practical use of *EEVblog µRuler* at 19:15 and many useful parts to recycle at the end. Camera, Steppers, Power supplies, Tubes.
I like the X-Ray Spex!
Nice video, wonder if that silicone was liquid when new and has jelled over time with the heat/xray exposure?
Love your tear down vids!
Actually you can focus X-Rays, if you use mirrors at a very shallow angle. You might find more details by searching "Kirkpatrick-Baez mirror". Nice teardown, life was so hard before non-cooled silicon drift detectors became mainstream...
By the way, the X-Ray tubes for these instruments are a shade under £3000
Is that one of the rulers from... IT IS OMG! :D
I like your references, Mike. I wish Dave would include references more often.
19:27 oh, it's the micro ruler!
very cool, thanks for the video!
At 4:24 it's a 2KV PSU for the detector.
Whats wrong with your camera today, mike?
I think he had his rendering settings wrong -- bitrate too low.
Nothing - I unintentionally hit "upgrade" in MeGUI and now it's broken & couldn't be bothered to try fixing so had to use a different codec
I'm guessing the video camera recording was fine, but the pre-upload rendering settings were quite low... I stopped watching the video. :-/
what a score!
To dissolve silicone you use silicone, or methylated spirits.
Yet another "Here's something cool that I found" video where he takes it apart, rewires it and makes it do something cool. :)
Not enough mikeselectricstuff vids lately. I've had withdrawal.
What is the original purpose of the radioactive dinner plate?
To get a vibrant Orange red colour they used uranium oxide. They stopped using it in the 1940s. The plates are known as Fiesta dinnerware.
I guess it also keeps the food on the plate nice and warm. Thanks for the info
My guess is to have ... dinner.
Nice interesting video :) Thanks!
You could propably do gamma spectroscopy with that tube
kV is too low for that, only the higher nm of gamma are possible with this
Have you got a box load of stepper motors and controllers or psu transformers to give away or sell ?
Mike, did you sell the GM tube assembly and HV supply? I wanna buy them for my uni thesis...
I'm a bit surprised it made much xray at only 6kV, afair the tungsten lines are at ~9kV
Whats the purpose of all the silicone gunk in that tube?
It would allow for more effisiant heat transfer and electrical isolation.
X-ray fluorescence spectrometers rule.
Only 5kV and you produce X-rays?! Although soft type but I never thougth that would be near enough for that.
hey look its the resealing silicone potting again :P
Very intresting
£100 says that's an SG3525 PWM controller in the front end of that supply. Am I right Mike?
For some reason I thought that X-ray tubes have rotating parts inside them, but I don't see them in the video. Did you take them off for the demo, or are they just not used in this kind of tube (only on some other kind e.g. higher voltage), or are they there and I'm just not watching closely enough?
I've never heard of X-Ray tubes with moving parts. Just the high voltage and the low gas pressure inside the tube are all it needs.
Some high power tubes use a conical rotating anode to spread out the power dissipation at the target. Less common nowadays with better detectors
You are right. Some older tubes will feature a spinning tungsten anode inside to keep cool via heat dissipation as they get very hot from the electron gun. Tungsten's melting point is 3,400 Celsius and conducts heat incredibly well. In some cases, the tungsten in xray high power tubes have been known to melt so it helps to increase the apparently surface area to the exposure of electrons, and in turn helps save a lot of bother with external cooling.
Mike, at 31:30 you have these wire clamps in your powersupply. What are these called? Or where can i find them?
search wago 4mm at farnell
mikeselectricstuff
Thanks
'''''One of my favorites. Now lets crank it ]to 10 kv and sleep with it under our pilliow for white noise. an good rest.
I think that's the most creatively deadly use of xrays I've ever heard.
Can you add in the description a line about the quality please? I know it's not really your "fault" (I read the comment where you explained about software update)... but I've just changed a bunch of my graphics settings and this happened to be the 1st video I tried to watch since - spent a while assuming it was something I'd done wrong!
Ahahahaha such a fail
Beryllium window you say? be sure to wash your hands well after handling that. =)
gasoline dissolves silicone
So, I take it, the x-rays you were playing with in the end weren't that dangerous? The camera didn't realy pick up any of them.
Very interesting video!
the source of gamma he was using is an old fiestaware plate, that has uranium oxide in the ceramic glaze. it is a very low level source of gamma radiation and is safe to handle. also the sensor he is using is very sensitive to gamma radiation. some homes in certain parts of the uk need to have a ventilated basement due to naturally occurring radon gas coming out of the ground!!
insanitybiker
Thanks. Actually, I was refering to the X-Ray tube he used after that part in the video.
Video quality is horrible. : (
Come on Mike, spend a few quids on a decent camera.
He mentioned in an earlier reply here that he had a problem with his video encoding software and had to use something else.
F