John that was an excellent summary of scraping, well done. Some people confuse "flat" and "smooth", a properly scraped surface is flat, but not smooth. A polished surface is smooth but may not be flat. A well surface ground object may be relatively flat and relatively smooth. A properly lapped surface (eg a surface gauge) will be both flat and smooth. Each type of technique and the finish obtained has their place, and one isn't necessarily better than another for a particular application. For anybody thinking of getting in to this, try to take one of Richard's classes, failing that his video is an excellent introduction. He is also exceptionally generous with sharing information on how to improve for those who show a willingness to learn. Any of us who are doing what we love and earning a living from it are genuinely blessed in my opinion. Rich is clearly doing what he loves and it shows. Beware though, scraping IS an addictive process :)
The fact that we have all these ridiculously accurate machines and we can still achieve such a high level of accuracy by touch, feel and technique is mind boggling. For instance, I work on guitars...I had one of my newer instruments plek'd (cnc machine that levels guitar frets) and found that it was still pretty buzzy when trying to get the action I was after. I levelled the frets with a reasonably straight piece of aluminium i beam (.001") and it played so much better than it did after going through the miracle machine. Goes to show there's still room for handwork after all.
Strange subject but this video is so well done. Zero time wasted on anything. That alone makes this video great. Great to the point talking. And he talks you through the subject just as you would talk through it to yourself. It is a new and difficult subject to communicate and he did a fantastic job. Really awesome presentation this time.
Looking back 40 years +, we learned on the job. Everybody in rebuilding dept. was required to scrape. At that time- no power scrapers. Then about 20 years ago A change of jobs -power scrapers. Wow what a relief. Still a need for hand scraping but not as much. It does take time to learn and years to be good at it, especially scraping a whole machine for alignments.
Brilliant! You are so much more than CNC! That's why I like Mr Crispin. So many people now have none of the hand skills! Using the test indicator stand is the best way too rather than mag base.
Surface grinders do a pretty good job of keeping things flat. The reason your parallel was low in the middle is because the wheel of a surface grinder wants to grab and pull the metal. All part of the nature of abrasive machining. Super cool videos on this stuff, though!
In days long ago when dudes formally did operations like your talking about they called it FLOWERING and believe me it took a lot of time to complete large surfaces. A good flowered Bridgeport table was a work of art.
Lapping is the Best way to make a surface flat. But two Lapped Surfaces will have SO MUCH surface to Surface contact, that they won't slide. The Surface Adhesion will be so great, that you will need to apply so much force, that when the adhesion is overcome, you will likely Tear one, or both Surfaces and cause Gauling. Flaking is used to Create intentional valleys in one of the Surfaces to retain an anti-Adhesion lubricant. The Lubricant will help to prevent the amount of adhesion and lessen the force needed to overcome it. Also, One surface can be bonded with a coating that resists adhesion and increases the slip. Where the Surface is too large to fit on a lapping machine. Progressive surface scraping can be used to achieve a nominal overall Flatness. It will never be as Flat as a Lapped surface, but you can get progressively closer and closer, by progressively scraping away less and less with each progression. your Demonstration using the gauge block on top of the scrapped surface is a perfect example. The Block is precision lapped to be flat. it's flat surface makes contact with the crests of all of the High spots of the scraped surface. Within any given area, there should be 40% to 60% of evenly distributed high Spots. this will provide adequate contact area for the other Flat surface. Scraping always leaves surface imperfections, a distribution of Valleys and Crests. This is why precision Optics are Lapped and not scraped.
In the machine shop display at the Smithsonian Institute they show a guy standing on a plank and three guys cranking him in with a pulley . He is the scraper and is cutting with a metal wedge through the plank. That is how they kept the early machines flat and accurate.
And so begins the slide, never again will you look at anything and not question it's flatness. It's a great challenge, almost like a chess game, to take your new knowledge and apply it to qualifying a machine. Enjoy the torture, I personally love it! :)
bcbloc02 Imagine how the old timers thought of use when we first started. They probably waited until we got out of hearing range and laughed their butts off. 😊 Thanks, John
You can use a two colour method. First you rub a red colour on the piece, then wipe it off so only in the valleys is red paint.. Then you go to the granite blueing to see the highs. Then you scrape until blue is gone and you hit red in the valleys.
Thanks!!!! It was like a light bulb going off! Reminds me of when going thru radar principles and finally understanding how a Hybrid-T was able to work.
You must have poor surface grinders if you can't get it flatter than scrapping. Scrapping is only used when you can't grind; kinda like refurbishing. It is NOWHERE near as accurate as surface grinders. If you want a superior flat surface to grinding, then you have to LAP. Lapping is what they do to Guage Blocks *AFTER* surface grinding. You will not find scrapped Guage Blocks for the reasons I've stated above.
This makes me question my home-built CNC project that I am starting. I had thought to start with a 1" steel table top so that I could do some sort of scraping or grinding to get flat so that I can begin building linear bearings and axis upon that. But now I am am wondering if using a thicker gannet to sit upon might be more stable platform to build on top of?
Is there some optical / laser mechanism you could use instead of repeated blueing? Mostly just wondering for the sake of wondering. I'm thinking something that throws a laser at a very very closely controlled height over the surface?
This kinda starts the whole chicken/egg thing...like do you get something so flat, without having a reference to what is "flat" in the first place?? Like who made the first surface plate without a reference?
Nathan Hamler You actually don't need a reference surface to get something flat. If you take three surfaces, and reference those to each other in succession (1 to 2, 2 to 3, 3 to 1) until they are all three the same the result is perfectly flat. Said another way, the only way that three surfaces can match is if all three are flat. This is how the first reference surface can be produced.
Do you have a video about proper blueing? I found that many people make a lot of mistakes, especially with smaller parts that have the tendency to roll over the reference plate instead of rubbing in parallel.
So how do they get those granite reference surfaces so flat? Everything I've seen involves tools of at least the same level of precision as you want to reach. How do you use tools that are good to +- 1 thou to get +- .5 thou?
Great video. Never thought I'd get so excited to learn about scraping! I just thought it was there to look good! (not really, but it does look awesome)
The deviation on that straight edge might be even less than that, due to the fact that as you held the gauge block it expanded from the heat of your hand thus throwing off the measurement. Nice job on that casting by the way. Thanks for the videos.
In which way is metal scraping better then draw the piece on a completely flat surface (a little thicker sheet of ordinary limeglass is enough) with a sandpaper on that?
I'm pretty sure the way you checked flatness with the gauge block was slightly incorrect. Your method was actually the technique used for checking parallelism. I know you were time limited, but flatness requires more points in multiple directions.
It seems to me that scraping is just the old school (and old-school isn't less, in my definition of the word it refers to processes that tend to be at a more basic level (i.e. requiring less tools/technology to make it happen)....like, you can hack saw something by hand, or you can use a motorized hacksaw (or something else) and it all depends on things like; available tools and reosources, what you are wanting to accomplish, how fast, how cheap, how accurate, how...??...whatever....In a nutshell the question then might be, WHAT is "GOOD ENOUGH", "EASY ENOUGH", "FAST ENOUGH" for the project at hand?"
Hand scraping is important process, machine needs an oil pocket to maintain the accuracy of the machine.specially in the small parts like gib and gudeplate zslide and turret slide of the machine parts. The accuracy must be 2 micron .im a scraper for almost 26 years.
[puts on metrology nerd hat] No lie, "It depends on the color and how long you wait." IIRC, blue Dykem is about half of a tenth (or fifty hundredths) when dry. The red stuff is a little thinner. But that's not the factor here: What you're doing is coloring the high spots. When the area you just scraped gets dyed again and has a contiguous, even and unbroken coating you're within that half of a tenth. The only concern is *relative* accuracy, not absolute accuracy. If you were needing it flatter than fifty hundredths, you'd be dialing it in using optical interferometry after the initial scraping with Dykem. But for the home gamer and small job shop machinist both, you probably won't be building for NASA, the ESA, LANL, LLNL, or CERN.
Probably missing something but when you guys say, one 10th, that's one ten thousandth of an inch, right? So wouldn't half a tenth be one twenty thousandths of an inch? Or would no one ever say twenty thousandths because of the position of the number in the decimal and confusing I guess because its actually a 5 and not a 1? What about 5 hundred thousandths? I guess I'm just curious why in machinist language you go right to millionths and skip a decimal term? .5 = 5 tenths or 50 hundredths or 500 thou? .05 = half tenth or 5 hundredths or 50 thou? .005 = 5 thou ... easy one .0005 = 5 ten thou ... ? .00005 = everyone seems to be in agreement its 50 millionths buy why would you just skip hundred thou Your machinist language confuses me, its like you guys discriminate against the word hundredth. If I walked into a machine shop and said 5 hundred thousandths would everyone laugh at me?
.5 = 500 thou or 1/2 inch .05 = 50 thou or 5 hundredths .005 = 5 thou .0005 = 5 tenths .00005 = 50 millionths or 50 mils Most measuring tools only give you a 0 or 5 reading at this scale anyway. Probably has to do with how easy it is to say.
Trabalhei neste ramo 50 anos me aposentei tenho alguns equipamentos guardados uma régua de aço fabricada na Alemanha com mais de cinqüenta anos deixei rasqueteando e depois fazendo lapidação com 0,001 mm na extensão de 1500 mm.
My bet is none. What many call hand scraped is merely hand flaked for some oil pockets on top of a ground surface. This is a 10 minute job for some chinese guy, not a 200 hour precision scraping effort.
I guess nobody in your scraping class told you that machinist levels aren't flat on the bottom. You could always send it back to Starrett to have them put the arch back into it so you can use it again.
NYC CNC We'll get you down to having to use a laser interferometer and optical flats and measure flatness within waves and fringes. 😆 Ps. 1 Fringe = 0.3 microns (.0003mm) . Have done 1/4 fringe spec optics 😁
gredangeo Microns aren't even remotely close to being fine enough for optics. Fringes and waves is measurement using light waves. Fringes are short for interference light fringes. When you pass a single light wave through and optical flat ontop of an object, the light will reflect within the tiny space between the optical flat and the object. Via reflection dark and light bands are generated due to the gap between the optical flat and the object you're measuring. Since the light used is a single wave length, divergence within the gap is predictable and measurable. The greater the distance within the gap, the more divergence is created. And interference lines will appear as dark and light bands. The more lines the more peaks and valleys, and the straighter the lines, the flatter the part. You can even see concave or convex sections within an object with it. Which will show up as arcing light and dark bands It's for measure really really super flat, or super higher accuracy dimensions. You can look up Optical Interference if you really want to know about it. It's been around since 1801. And still used today to measure super flat surfaces.
Occams Sawzall But you only said that 1 Fringe is about 1/3 of a Micron. Just 1/3. That is not a big jump to a higher level of precision. So instead of saying "30 Microns" you say it's "90 Fringes"? Not a big deal as far as I'm concerned. I say it's better off to stick with the more common units, and then when needed go to the Unit that is 1000 times finer than the Micron, and be done.
gredangeo It's how optics and super flat parts are measured. I didn't invent it. No one in optics measures surface deviations in microns. Fringes are a comparative measurement anyway. It's the amount of deviation from a know to unknown surface. OD, sagittia, FOV, center thickness, and annulus dimensions are in microns. When it comes to the physical surface it's fringes and waves.
that time we were 12-13 and thought the precision blocks were old pieces of scrap with hammer marks.and used them as anvils for our school project. the Teacher was pulling his hair when he realised what we did.
Thank you. You could have called this: "Everything you wanted to know about scraping but never got a chance to ask?" It certainly answered all my questions. BTW: At 1:04 you point and say "card here to a half an hour video on the Richard King ..." but there's no card and no link. There's no link in the description either. I guess this is that video: th-cam.com/video/Aq3tHyRVNys/w-d-xo.html
I've looked at the above and wasn't able to find a definitive answer, but I also don't really know what I'm looking for! I may turn an old file into one.
Hopefully you'll be able to answer this John. I can't see any of your replies to any videos. I've checked everything on my end to make sure I've got nothing setup strange, but you're the only person I can't see. I see replies of everyone else, just not you. Some of the newer vids I can see replies, but none of the older ones. Any thoughts?
Nice video. There is a way of making any surface flat to within fractions of a wavelength of light by grinding three flats together. Any two flats will form a concave/ convex spherical surface when ground together, but this is overcome by grinding three flats together which counteracts the tendency for any two surfaces to form a spherical surface. What is formed is actually an infinity sized spherical surface or a plane on all three. Details of how this is done can be found in the book "Amateur Telescope Making".
yea .0005-.0006 isn't perfectly flat, but for the most part do you ever need a part that's tolerance is less than .001 maybe .0005 unless you're making parts for a jet or NASA?
Jay Brewster Internal parts for this. The motor and bearing housings and the joint flexure systems. The entire system combined has less then .005” total accumulated run out. www.mobiusbionics.com/luke-arm/
Would be difficult to scrape a level not knowing whether the Bubble Glass was level with the surface. You could scrape the surface sure, but if your high spot doesn’t make the glass level then you have a flat surface and the bubble level isn’t square with it. If you have a good way to chuck it up with the glass level then I suppose though it could be challenging for certain devices especially if the bubble glass only goes one direction.
Wow this is so informative video. Thank you. I currently working on my master thesis. And i would like to know more about the history of scraping. If anyone knows about it or how to get access to the source, please help me!!
One of these days they're going to figure out that lubing sliding surfaces just need scratches like the hone/stone marks need in an engine's cylinders to keep the rings from wearing, and scraping will just be old time machinist masturbation!
Ettore Bugatti hand scraped every single head on his engines. No need for a head gasket. That is another reason why Bugatti cars fetch millions of dollars.
John that was an excellent summary of scraping, well done.
Some people confuse "flat" and "smooth", a properly scraped surface is flat, but not smooth. A polished surface is smooth but may not be flat. A well surface ground object may be relatively flat and relatively smooth. A properly lapped surface (eg a surface gauge) will be both flat and smooth. Each type of technique and the finish obtained has their place, and one isn't necessarily better than another for a particular application.
For anybody thinking of getting in to this, try to take one of Richard's classes, failing that his video is an excellent introduction. He is also exceptionally generous with sharing information on how to improve for those who show a willingness to learn. Any of us who are doing what we love and earning a living from it are genuinely blessed in my opinion. Rich is clearly doing what he loves and it shows.
Beware though, scraping IS an addictive process :)
Why is this scraping process done
@@hobielektronikmakina5164 Create more accurate machines.
The fact that we have all these ridiculously accurate machines and we can still achieve such a high level of accuracy by touch, feel and technique is mind boggling. For instance, I work on guitars...I had one of my newer instruments plek'd (cnc machine that levels guitar frets) and found that it was still pretty buzzy when trying to get the action I was after. I levelled the frets with a reasonably straight piece of aluminium i beam (.001") and it played so much better than it did after going through the miracle machine. Goes to show there's still room for handwork after all.
Oh yes, definitely. You should try spot leveling your frets on a tensioned neck - the results are even better.
Strange subject but this video is so well done. Zero time wasted on anything. That alone makes this video great. Great to the point talking. And he talks you through the subject just as you would talk through it to yourself. It is a new and difficult subject to communicate and he did a fantastic job. Really awesome presentation this time.
Looking back 40 years +, we learned on the job. Everybody in rebuilding dept. was required to scrape. At that time- no power scrapers. Then about 20 years ago A change of jobs -power scrapers. Wow what a relief. Still a need for hand scraping but not as much. It does take time to learn and years to be good at it, especially scraping a whole machine for alignments.
This is the most excited we've seen John since the baby video!
I told my friend that the way they make the ways in machines flat is by hand, and he didn't believe me until I showed him scraping videos.
What videos, exactly?
@@jwstanley2645 look on youtube for "hand scraping", it's an amazingly simple process.
Brilliant! You are so much more than CNC! That's why I like Mr Crispin. So many people now have none of the hand skills! Using the test indicator stand is the best way too rather than mag base.
I think the finish of hand scraping is beautiful, especially the Moore pattern. Thanks for the video!
BRILLIANT capsul description and demonstration. My hat's off to you.
Awesome. Just saw Abom talk about scraping but he didn't explain exactly what scraping is. This video is a great explanation!
Surface grinders do a pretty good job of keeping things flat. The reason your parallel was low in the middle is because the wheel of a surface grinder wants to grab and pull the metal. All part of the nature of abrasive machining. Super cool videos on this stuff, though!
In days long ago when dudes formally did operations like your talking about they called it FLOWERING and believe me it took a lot of time to complete large surfaces.
A good flowered Bridgeport table was a work of art.
Lapping is the Best way to make a surface flat.
But two Lapped Surfaces will have SO MUCH surface to Surface contact, that they won't slide.
The Surface Adhesion will be so great, that you will need to apply so much force, that when the adhesion is overcome, you will likely Tear one, or both Surfaces and cause Gauling.
Flaking is used to Create intentional valleys in one of the Surfaces to retain an anti-Adhesion lubricant.
The Lubricant will help to prevent the amount of adhesion and lessen the force needed to overcome it.
Also, One surface can be bonded with a coating that resists adhesion and increases the slip.
Where the Surface is too large to fit on a lapping machine.
Progressive surface scraping can be used to achieve a nominal overall Flatness.
It will never be as Flat as a Lapped surface, but you can get progressively closer and closer, by progressively scraping away less and less with each progression.
your Demonstration using the gauge block on top of the scrapped surface is a perfect example.
The Block is precision lapped to be flat.
it's flat surface makes contact with the crests of all of the High spots of the scraped surface.
Within any given area, there should be 40% to 60% of evenly distributed high Spots.
this will provide adequate contact area for the other Flat surface.
Scraping always leaves surface imperfections, a distribution of Valleys and Crests.
This is why precision Optics are Lapped and not scraped.
In the machine shop display at the Smithsonian Institute they show a guy standing on a plank and three guys cranking him in with a pulley . He is the scraper and is cutting with a metal wedge through the plank. That is how they kept the early machines flat and accurate.
And so begins the slide, never again will you look at anything and not question it's flatness. It's a great challenge, almost like a chess game, to take your new knowledge and apply it to qualifying a machine. Enjoy the torture, I personally love it! :)
My friends will really like me now...😂
Good stuff. I find that the more I learn the more I find out I don't know anything. :-)
bcbloc02
Imagine how the old timers thought of use when we first started.
They probably waited until we got out of hearing range and laughed their butts off. 😊
Thanks,
John
I have a lot of experience scrapping, but none doing actual scraping. :-)
bcbloc02
I got a whole pile of treasures in my yard that can attest to my skills at scrapping.
😊
Thanks,
John
Scraping can quickly lead to scrapping if you rush. It's a process that rewards patience and punishes haste. Slow and steady....
i see what you did there. ;)
the best video to explain scraping across different languages youtube videos
I want to hand scrape in my home garage but why are the straight edges $4k plus? Is there a reasonably priced brand with decent quality?
Good, simple, straightforward explanation.
You can use a two colour method. First you rub a red colour on the piece, then wipe it off so only in the valleys is red paint.. Then you go to the granite blueing to see the highs. Then you scrape until blue is gone and you hit red in the valleys.
Awesome video John! You should show more enthusiasm! 😁
I felt like I learned even more by your recap. Great job!
Hey Adam - I believe thats a sticker of you behind him on the wall - ps, love you stuff man.
Best video I’ve seen on this yet
That explanation and demonstration was excellent and clarified the topic, thanks.
Thank you so much for this quick explanation. I watched Keith's videos and although fascinating, I really had little idea of it was all about.
That's 3.8μm done by hand when the movement accuracy of a Brother Speedio is 5μm, while the repeatabillity is 3! You get the point
That was a great video! Nice work!!
Lars Christensen
Thanks!!!! It was like a light bulb going off! Reminds me of when going thru radar principles and finally understanding how a Hybrid-T was able to work.
You must have poor surface grinders if you can't get it flatter than scrapping. Scrapping is only used when you can't grind; kinda like refurbishing. It is NOWHERE near as accurate as surface grinders. If you want a superior flat surface to grinding, then you have to LAP. Lapping is what they do to Guage Blocks *AFTER* surface grinding. You will not find scrapped Guage Blocks for the reasons I've stated above.
How are the superflat granit blocks made ?
This makes me question my home-built CNC project that I am starting. I had thought to start with a 1" steel table top so that I could do some sort of scraping or grinding to get flat so that I can begin building linear bearings and axis upon that. But now I am am wondering if using a thicker gannet to sit upon might be more stable platform to build on top of?
Any turcite advice? Would you scrape the same as cast but use a hand tool? The information seems to be lacking when compared to cast scraping.
Glad you made this! I had a few questions before. None now!
Finally a video on scraping I understand!
Is there some optical / laser mechanism you could use instead of repeated blueing? Mostly just wondering for the sake of wondering. I'm thinking something that throws a laser at a very very closely controlled height over the surface?
This kinda starts the whole chicken/egg thing...like do you get something so flat, without having a reference to what is "flat" in the first place?? Like who made the first surface plate without a reference?
An old gray bearded guy with a chainsaw and a really steady hand
@ Nathan Hamler
My guess would be opticians .
They didn't have surface plates , but used light itself to measure for surface quality .
Nathan Hamler You actually don't need a reference surface to get something flat. If you take three surfaces, and reference those to each other in succession (1 to 2, 2 to 3, 3 to 1) until they are all three the same the result is perfectly flat. Said another way, the only way that three surfaces can match is if all three are flat. This is how the first reference surface can be produced.
Thanks,You just took all the magic out of it for me.
We build spaceship parts with stone axes and cold chisels! Think about it.
How is the granite surface made flat?
Great video, John. Felt like a recap of our class. Nice job.
Glad to hear that you survived your crash
Do you have a video about proper blueing? I found that many people make a lot of mistakes, especially with smaller parts that have the tendency to roll over the reference plate instead of rubbing in parallel.
So how do they get those granite reference surfaces so flat? Everything I've seen involves tools of at least the same level of precision as you want to reach. How do you use tools that are good to +- 1 thou to get +- .5 thou?
You rub 2 together, granite is hard and it comes out perfectly flat. Its friction that makes it flat
Just learned about scrapping. Very cool technique
I have a book from the 1800s and it said you will probably fuck up your machine if you try to scrape it.
What book?
Great video. Never thought I'd get so excited to learn about scraping!
I just thought it was there to look good! (not really, but it does look awesome)
The deviation on that straight edge might be even less than that, due to the fact that as you held the gauge block it expanded from the heat of your hand thus throwing off the measurement. Nice job on that casting by the way. Thanks for the videos.
No he moved the clock stand. Always move the job not the clock stand
Awesome! Great explanation
In which way is metal scraping better then draw the piece on a completely flat surface (a little thicker sheet of ordinary limeglass is enough) with a sandpaper on that?
I'm pretty sure the way you checked flatness with the gauge block was slightly incorrect. Your method was actually the technique used for checking parallelism. I know you were time limited, but flatness requires more points in multiple directions.
Dear Sir,
How we can confirm the scrapping is ok or not
It seems to me that scraping is just the old school (and old-school isn't less, in my definition of the word it refers to processes that tend to be at a more basic level (i.e. requiring less tools/technology to make it happen)....like, you can hack saw something by hand, or you can use a motorized hacksaw (or something else) and it all depends on things like; available tools and reosources, what you are wanting to accomplish, how fast, how cheap, how accurate, how...??...whatever....In a nutshell the question then might be, WHAT is "GOOD ENOUGH", "EASY ENOUGH", "FAST ENOUGH" for the project at hand?"
So what machine or process makes a granite surface plate so flat to be considered a reference plane?
Lapping
You're an excellent teacher! Well done video!
Hand scraping is important process, machine needs an oil pocket to maintain the accuracy of the machine.specially in the small parts like gib and gudeplate zslide and turret slide of the machine parts. The accuracy must be 2 micron .im a scraper for almost 26 years.
How thick is that layer of layup fluid on the granite, its pretty viscous isn't it? I would think that is what limits the accuracy of this.
[puts on metrology nerd hat] No lie, "It depends on the color and how long you wait." IIRC, blue Dykem is about half of a tenth (or fifty hundredths) when dry. The red stuff is a little thinner. But that's not the factor here: What you're doing is coloring the high spots. When the area you just scraped gets dyed again and has a contiguous, even and unbroken coating you're within that half of a tenth. The only concern is *relative* accuracy, not absolute accuracy. If you were needing it flatter than fifty hundredths, you'd be dialing it in using optical interferometry after the initial scraping with Dykem. But for the home gamer and small job shop machinist both, you probably won't be building for NASA, the ESA, LANL, LLNL, or CERN.
Damn!
NYC CNC
That's what I get for being up so late.
Probably missing something but when you guys say, one 10th, that's one ten thousandth of an inch, right? So wouldn't half a tenth be one twenty thousandths of an inch? Or would no one ever say twenty thousandths because of the position of the number in the decimal and confusing I guess because its actually a 5 and not a 1? What about 5 hundred thousandths?
I guess I'm just curious why in machinist language you go right to millionths and skip a decimal term?
.5 = 5 tenths or 50 hundredths or 500 thou?
.05 = half tenth or 5 hundredths or 50 thou?
.005 = 5 thou ... easy one
.0005 = 5 ten thou ... ?
.00005 = everyone seems to be in agreement its 50 millionths buy why would you just skip hundred thou
Your machinist language confuses me, its like you guys discriminate against the word hundredth.
If I walked into a machine shop and said 5 hundred thousandths would everyone laugh at me?
.5 = 500 thou or 1/2 inch
.05 = 50 thou or 5 hundredths
.005 = 5 thou
.0005 = 5 tenths
.00005 = 50 millionths or 50 mils Most measuring tools only give you a 0 or 5 reading at this scale anyway.
Probably has to do with how easy it is to say.
Thanks for explaining! I've been wondering what the heck scraping was since I saw Abom79's videos of the scraping class.
Is there money to be made in learning how to do this? Could I get customers who need things to be scraped?
Trabalhei neste ramo 50 anos me aposentei tenho alguns equipamentos guardados uma régua de aço fabricada na Alemanha com mais de cinqüenta anos deixei rasqueteando e depois fazendo lapidação com 0,001 mm na extensão de 1500 mm.
can you use a sheet of glass as a surface plate
Now I'm wondering just how many machine tool builders still use scraped ways. I know Haas uses ground linear ways on their machines.
My bet is none. What many call hand scraped is merely hand flaked for some oil pockets on top of a ground surface. This is a 10 minute job for some chinese guy, not a 200 hour precision scraping effort.
I guess nobody in your scraping class told you that machinist levels aren't flat on the bottom. You could always send it back to Starrett to have them put the arch back into it so you can use it again.
So if your parallel was a mile long from one end to the other it would only be 18" out of straight! Epic!
Lol just looked at my over fingered I pad screen, totally looks like scraped metal!
Hi, anyone know how hyper flat reference surfaces in stone are made ? I can't find any video showing the process to make those.
NYC CNC Great, thank you John. Your videos are very inspiring. You are doing a great job. Thank you for sharing all this.
Next project... hand lapping!
Cut those few tenths down to millionths.
NYC CNC
We'll get you down to having to use a laser interferometer and optical flats and measure flatness within waves and fringes. 😆
Ps. 1 Fringe = 0.3 microns (.0003mm) . Have done 1/4 fringe spec optics 😁
Why would you use such a unit as "Fringe"? Isn't Microns good enough?
gredangeo
Microns aren't even remotely close to being fine enough for optics. Fringes and waves is measurement using light waves. Fringes are short for interference light fringes. When you pass a single light wave through and optical flat ontop of an object, the light will reflect within the tiny space between the optical flat and the object. Via reflection dark and light bands are generated due to the gap between the optical flat and the object you're measuring. Since the light used is a single wave length, divergence within the gap is predictable and measurable. The greater the distance within the gap, the more divergence is created. And interference lines will appear as dark and light bands. The more lines the more peaks and valleys, and the straighter the lines, the flatter the part. You can even see concave or convex sections within an object with it. Which will show up as arcing light and dark bands
It's for measure really really super flat, or super higher accuracy dimensions.
You can look up Optical Interference if you really want to know about it. It's been around since 1801. And still used today to measure super flat surfaces.
Occams Sawzall But you only said that 1 Fringe is about 1/3 of a Micron. Just 1/3. That is not a big jump to a higher level of precision. So instead of saying "30 Microns" you say it's "90 Fringes"? Not a big deal as far as I'm concerned. I say it's better off to stick with the more common units, and then when needed go to the Unit that is 1000 times finer than the Micron, and be done.
gredangeo
It's how optics and super flat parts are measured. I didn't invent it. No one in optics measures surface deviations in microns.
Fringes are a comparative measurement anyway. It's the amount of deviation from a know to unknown surface.
OD, sagittia, FOV, center thickness, and annulus dimensions are in microns. When it comes to the physical surface it's fringes and waves.
Clear Explanation, Enjoyed
Never knew about the points per inch and that was desirable so it isn't 100% perfectly flat and sticks
Awesome John.
that time we were 12-13 and thought the precision blocks were old pieces of scrap with hammer marks.and used them as anvils for our school project. the Teacher was pulling his hair when he realised what we did.
I like this guy! Very pleasant!
Thank you. You could have called this: "Everything you wanted to know about scraping but never got a chance to ask?" It certainly answered all my questions.
BTW: At 1:04 you point and say "card here to a half an hour video on the Richard King ..." but there's no card and no link. There's no link in the description either.
I guess this is that video: th-cam.com/video/Aq3tHyRVNys/w-d-xo.html
Where can I get a hand scraping tool?
I've looked at the above and wasn't able to find a definitive answer, but I also don't really know what I'm looking for! I may turn an old file into one.
rkshireygames Try McMaster-Carr look under machinist scrapers.
Just got one on order! Can't wait to take my hand at this.
Just arrived the other day! It's a very interesting process!
Hopefully you'll be able to answer this John. I can't see any of your replies to any videos. I've checked everything on my end to make sure I've got nothing setup strange, but you're the only person I can't see. I see replies of everyone else, just not you. Some of the newer vids I can see replies, but none of the older ones. Any thoughts?
Nice video. There is a way of making any surface flat to within fractions of a wavelength of light by grinding three flats together. Any two flats will form a concave/ convex spherical surface when ground together, but this is overcome by grinding three flats together which counteracts the tendency for any two surfaces to form a spherical surface. What is formed is actually an infinity sized spherical surface or a plane on all three. Details of how this is done can be found in the book "Amateur Telescope Making".
Good and informative. Thanks!
Excellent vid!
شونوع اسكين
yea .0005-.0006 isn't perfectly flat, but for the most part do you ever need a part that's tolerance is less than .001 maybe .0005 unless you're making parts for a jet or NASA?
CollinandMason
Yes actually constantly... and no NASA parts here... actually I think NASA JPL specs are looser than what I'm running now. :/
@@occamssawzall3486 Wow. What kind of parts?
Jay Brewster
Internal parts for this. The motor and bearing housings and the joint flexure systems. The entire system combined has less then .005” total accumulated run out.
www.mobiusbionics.com/luke-arm/
Jay Brewster
www.extremetech.com/extreme/182202-fda-approves-the-deka-arm-the-first-commercial-mind-controlled-prosthetic-arm
Jay Brewster
www.extremetech.com/computing/295794-luke-skywalker-robotic-prosthesis-allows-amputee-to-feel-again
nice and informative as always!!
Would be difficult to scrape a level not knowing whether the Bubble Glass was level with the surface. You could scrape the surface sure, but if your high spot doesn’t make the glass level then you have a flat surface and the bubble level isn’t square with it. If you have a good way to chuck it up with the glass level then I suppose though it could be challenging for certain devices especially if the bubble glass only goes one direction.
Idk man i made some jaws with a face mill and held .0005 squareness, flatness, perpendicularity, etc.
I just started doing this at work . Shit was tough
Wow this is so informative video. Thank you. I currently working on my master thesis. And i would like to know more about the history of scraping. If anyone knows about it or how to get access to the source, please help me!!
مانوع الاصباغ الذي تستخدمه
That was really interesting, thank you.
Someone has increased their vocabulary!
It’s so crazy that with all the technology we have the best way to make a true flat surface is still the human hand, mind, and slow diligent work.
Excelente muy bueno !!!
Why go spend a week learning something even if you're not going to use it regularly? Because learning can be fun and knowledge is powerful.
They tell you how to do it but never tell you why. Most of the time you can get same results using a surface grinder,
👨💻TechPorn 😲 don't get much better than this 👍 Brilliant work to watch 👉oz🐨straya 🕺cheers !
good job
Awesome!
Paralelos nos dois lados.
,👌👌👌👌👌👌👌👌👌 micro dial nice working
One of these days they're going to figure out that lubing sliding surfaces just need scratches like the hone/stone marks need in an engine's cylinders to keep the rings from wearing, and scraping will just be old time machinist masturbation!
Ettore Bugatti hand scraped every single head on his engines. No need for a head gasket. That is another reason why Bugatti cars fetch millions of dollars.
Cool, the ultimate accuracy still comes from a human.
Americans are very reluctant to use the metric system.
So flatness is not roughness
thats not flat enough .. you're fired
انتم تثرثرون كثيرا اكثر من تعليم وطريقة العمل
wtf? making this flat means making them nOT FLAT
The low spots are pockets to hold oil.
I am a subsea robotics engineer and now I wanna be a scraper after that video HaHaHa.