there are many yt vids that failed to explain it. finally, I can sleep peacefully.
@tjvanderloop16864 жыл бұрын
One of the finest short explanations for using "GD&T" as a product or tool designer. Thanks for the great effort! The standard applied to all as a designer, shop-floor technologist, automation-technician or a user of CAD prints! T J (Tom) Vanderloop, Author, Technology-Instructor; ATEA, AWS, & SME Leader/Memberships
@mwont2 жыл бұрын
Finally the video explaining the GD&T that is worth watching. Thank you.
@Gdandtbasics2 жыл бұрын
Thank YOU!
@JoshuaJones-te1ef4 жыл бұрын
Bloody fantastic. Explains in basic english. Every position and a good example is shown. This channel is so helpful.
@zaidpatel73125 жыл бұрын
Very good explanation. Please keep uploading videos. You guys are exceptionally good.
@anujkumarshukla38817 жыл бұрын
after 5 years of development experience today i got know what it is really meant for..thanks for the video guys
@nimeshrajput68267 жыл бұрын
Hahaha same here....
@unstoppable18084 жыл бұрын
Very very deeply explained... thanks sir.
@genuzz4 жыл бұрын
Thank you for sharing this! It's so clear and explanatory by bar. Saving & getting subscribed.
@marnybhandal4 жыл бұрын
Excellent video - Explained really well .
@sisiprincessful5 жыл бұрын
Super clear video, thank you
@JBJB8753 жыл бұрын
good concept sir, Thanks
@Gdandtbasics2 жыл бұрын
Welcome!
@tjvanderloop16866 жыл бұрын
Excellent Video-Thanks! Thomas J. Vanderloop, CMfgE, LSME & AWS Member
@kirsten14688 жыл бұрын
this video is so informative. It cleared all of my questions about datum setting.
@feliperebelof9 ай бұрын
what an excellent video
@lukasilec19873 жыл бұрын
Thank you! Par exellence video!
@portraitart_nayan48743 жыл бұрын
Such an amazing explanation
@Gdandtbasics2 жыл бұрын
Glad you liked it
@v1v3k_rajan7 жыл бұрын
Neat explanation. Thanks!
@unstoppable18084 жыл бұрын
Dear sir, Please upload videos for all gd and t characteristics and concepts like this by your deep knowledge... waiting for it.
@Gdandtbasics4 жыл бұрын
Hello Tushar, Thanks for your comment. We are glad that you like the video explanation! All of the GD&T Symbols are available in our Online GD&T Fundamentals Course. Please feel free to check it out: www.gdandtbasics.com
@kevin101825 жыл бұрын
Thank you for explaining this.
@adreamingwolf7 жыл бұрын
Great video!
@daveperkins50778 жыл бұрын
11:06 mark - typo on the "faster and more CONSISTENTLY inspected"... says "constantly inspected"... Aside from that, a perfect explanation of how true position works and the benefits of using it!
@OmarRios898 жыл бұрын
Dave Perkins hey, do you work at GM?
@daveperkins50778 жыл бұрын
OmaRi, I do not.
@OmarRios898 жыл бұрын
Oh I seem to remember your name on a GM dimentional report with your name.
@daveperkins50778 жыл бұрын
OmaRi Must be another guy.
@mattwaclawek7379 Жыл бұрын
In the 8:40 min he says that Ø0.141mm equals to 0.5 tolerance. Where does the 0.5 come from? Can anybody explain this?
@Gdandtbasics Жыл бұрын
Thanks for the question! In the earlier part of this video (around 5:30) we explain that the equivalent diametric tolerance to a ±0.005 tolerance is found by using the Pythagorean Theorem. This means the equivalent diametric tolerance is one that is created by a circumscribed circle around the original square tolerance zone.
@mattwaclawek7379 Жыл бұрын
@@Gdandtbasics Oh, in the video (8:40 min) you say ".05" which means 0.05mm. Which is 0.1/2=0.05. That makes sense. To reiterate, it's the wording that confused me. Because in another printed learning resource someone also gave a value of 0.5 instead of 0.05 as I would expect. So I didn't know whether it was an error or I was just not getting something about the tolerance zones. (The confusion was causing pulling out my hair!) Thank you for your answer. And for the great learning resources!
@CDinkle5 жыл бұрын
Is there ever a situation in which it would preferred to use coordinate dimensions instead of GD&T position for a tolerance zone?
@Gdandtbasics4 жыл бұрын
Hello Cory - Thanks for your question - Sorry for the delay in our reply. To answer your question: No. The reason for this is that coordinate dimensioning leaves “a lot” open to interpretation. Coordinate dimensioning does not use a Datum Reference Frame and therefore, does not explicitly tell Quality how to constrain the part and take measurements. Position tolerancing will ALWAYS give more tolerance over coordinate dimensioning while still maintaining the functional requirement. The features will not get more “sloppy” since we are simply converting from a square tolerance zone to a round tolerance zone. Hope this helps! GD&T Basics Team
@OmarRios898 жыл бұрын
more videos like this. they aew very useful for us. if you can add subtitles, it would be great. thx
@cookingwithshravan23564 жыл бұрын
Thank u very nice video
@jef88984 жыл бұрын
Very helpful
@mohdshahid6215 жыл бұрын
Please make video on symmetry
@jasmine88475 жыл бұрын
THIS MIGHT SAVE ME IN MY 3351 MANUFACTURING CLASS
@andjelaaleksandrovic7711 Жыл бұрын
If you have a cylindric part that has holes on it with position feature, where do you place your datum feature?
@Gdandtbasics Жыл бұрын
Thanks for the question! If it is a pattern of holes being controlled with position that is subsequently used as a datum feature its best to attach the datum feature symbol to the position feature control frame. This indicates the use of the pattern of holes as a datum. If you wish to use a single cylindrical feature as a datum feature you can simply attach the datum feature symbol to either the surface of the cylindrical feature or directly attached to the leader arrow of the size dimension for that feature.
@alexismartinez88687 жыл бұрын
Could you explain the bonus tolerance position when the feature is in the maximal condition? I work in an automotive industry and we have a lot of problem to interperate this part. Thank u
@Gdandtbasics4 жыл бұрын
Hello Alexis - Thanks for your question, sorry for the delay in our reply! If we see the MMC modifier present after the position tolerance, it means that we will get that position tolerance when the feature is at its MMC size (meaning that we do not get any “bonus” tolerance). However, once we depart from MMC towards LMC, we get that incremental departure (within the size limits) from MMC in the form of “bonus” tolerance. If a size dimension had a tolerance of ±Ø0.5, the maximum “bonus” tolerance available would be Ø1. Hope this helps! GD&T Basics Team
@prakashdeshpande87852 жыл бұрын
I have a different line of thinking. To start with, the co-ordinate dimensioning and tolerancing system with +/- bilateral tolerances, is not suitable in case of controlling the position of some cylindrical hole or bolt under fitment. It is simply because of the circular cross section of the circular cross section of the parts. At your illustration, if any hole centre gets dislocated to the corner of the square 0.1 × 0.1 mm, then the resultant dislocation becomes 0.707.mm radially. Here, if the corresponding bolt is at true position, it shall result into a guaranteed fouling of 0.207 mm; which will deny the fitment. Modifying such square zone to a superscribing circular zone with 56%more area, is further illogical. In short, at any ID/OD fitment, the tolerance zone has to be circular, of a size equal to the gap between the OD/ID at MMC. Then all fitments shall be assured which can be the principal aim of the designer. Making the production easier and economical can be perhaps the secondary aim. Your comments please.
@Gdandtbasics2 жыл бұрын
Thanks for your comments! When designing for fitment between two cylindrical features, both can be designed to allow the virtual condition of the OD to match the virtual condition of the ID. This will ensure fitment. Check out our video on virtual conditions. www.gdandtbasics.com/virtual-condition-mmc-or-rfs/
@prakashdeshpande87852 жыл бұрын
Perhaps l was not able to clarify my thinking in appropriate manner. We agree to the statement that the +/_ tolerancing system is not suitable to control the position of any hole within a group. My different line of thinking is about the REASON behind the statement. 1. Though not mentioned at the video, the +/_ 0.05 tolerance for the coordinate dimensions like 40, 45 etc; are due to the available clearance between the bolt and hole size. Some +/_ 0.05 tolerance shall be due to the bolt being smaller than the hole nominally by 0.1. The +/_ position tolerance basically depends upon the available nominal gap between the hole and bolt. 2. If the function of fitment of the parts is agreed upon, then it becomes obvious to avoid the fouling between the bolt and hole. This can only be done by allowing the hole to have a max RADIAL dislocation of 0.05 (assuming the bolt at its true location). Crossing the limits means fouling. In my opinion, this is the reason. 3. If the fitment doesn't allow any dislocation beyond 0.05 radially, then all dislocations beyond but within a circular zone of 1.414 diameter automatically get disallowed. Hence modifying disallowed 0.1 × 0.1square zone to a circular zone of 1.414 diameter is, in my opinion, meaningless. Please correct me if I am wrong anywhere.
@mohamedsultan60447 жыл бұрын
Could you please explain, how secondary datum affects in GD&T position tolerance? Thanks in advance.
@Gdandtbasics4 жыл бұрын
Hey Mohamed - Thanks for your question, sorry for the delay in our reply. It really depends on the drawing and the Datum Reference Frame. In most cases, the Primary Datum Reference is establishing orientation only (perpendicularity), so the Secondary datum feature (and Tertiary) are establishing the location of the tolerance zone. If the Primary datum feature is establishing a perpendicularity orientation requirement, the Secondary datum feature can only establish a location requirement and not an orientation requirement. Hope this helps! GD&T Basics Team
@mioszw35523 жыл бұрын
I would dimension the final "correct" example differently - holes should not be measured in chains, in my opinion. I know they are basic, so "perfect", however at some point you would produce a chain of 10 basic dimensions, which are not so round and easy to add for a machinist, so a mistake is possible and it takes more time to produce definietly. Example: [88]+[17]+[22]+[24]. They are all basic, but what's the distance of the last hole from the datum? (imagine you are a production worker). I would use parallel or running, instead.
@Gdandtbasics3 жыл бұрын
Thank you for your comment. what you're suggesting would be considered a "bad practice". Having Chain Dimensions that are BASIC does not produce any kind of tolerance stack for the location of the tolerance zone(s). Aside from being an engineer, I am also a machinist. As a machinist, I must know/understand that when it comes to Position tolerancing (regardless of how it is dimensioned on the drawing), all measurements come from the Datums (Datum Simulators). It is a fundamental rule of Position tolerancing. Remember that Position tolerances are for the TOLERANCE ZONES and they are located at TRUE POSITION. TRUE POSITION does not/cannot move. NEVER! Now, the "as is" machined part will have holes/features that do move. This is different. As a machinist, I will measure these "as machined" features and see if they fit within its respective "perfect" cylindrical tolerance zone. I hope this helps clear things up! Thanks
@mioszw35523 жыл бұрын
@@Gdandtbasics I understand that chain of basics does not produce tolerance stack ups. my point was quite different. imagine you have to machine a shaft on a lathe. there are basic dimensions in a chain and their values are not so easy to add up (i'm an engineer too, but most of machinist are not) each time you start another cut, you need to add previous dimensions to the current one, i.e. 1st - 88mm, 2nd - 105mm 3rd - 127mm, 4th - 151mm (values as in my first comment). you are wrong by 1mm in the 4th cut and the part is destroyed. now imagine they are like [187.83] + [236.64]. tolerances are not changed, but you have to add those numbers in the process, as the lathe measures your knife's position from the original 0, and i think it may be quite challenging (i use ISO and I don't think that chains of basics are correct there)
@mileskintnermusic73495 жыл бұрын
Very informative, but how would I solve something like this using the True Position Formula?
@trexinvert5 жыл бұрын
There is no actual "true position formula". It's just the "hypoteneuse" of a triangle with equal legs of the coordinate tolerance. Example: The linear coord tolerance is .005 in both vert and horiz. The true position tolerance = diameter = hyp of triangle with (.005 + .005) leg vert and (.005 + .005) leg horiz. Using pythag theorem: Hyp = .0141 = diameter of the true position tolerance diameter zone. If you're an engr you will get that, if you are machinist use √2 x legs of a 45 degree triangle rule of thumb.
@cooldude910626 жыл бұрын
Waiting for more videos
@wisebro6415 жыл бұрын
How to calculate pin gauge size from position tolerance
@Gdandtbasics4 жыл бұрын
Hello - Thanks for your question, sorry for the delay in our reply! For an external feature we will take the MMC size and add any applicable geometric tolerance at MMC. For an internal feature, we will take the MMC size and subtract any applicable geometric tolerance at MMC. Hope this helps! GD&T Basics Team
@camjc15217 жыл бұрын
More lessons pleaseee
@charlesoluwaseuntennyson99547 жыл бұрын
Thank you Sir God bless you :)
@cookingwithshravan23564 жыл бұрын
Keep it up
@agankachu095 жыл бұрын
I do apply GD & T on my drawings however isn't GD & T more suitable for mass production OR parts made overseas? This way they will definitely fit or rather few rejects. If they were made in-house or locally then any part/feature discrepancies could be rectified within a few hours - if that time is permissible in a project of course. They've always complained about the time required to apply GD & T and are unable to realise the benefits of the end result.
@trexinvert5 жыл бұрын
Once the confusion is overcome and "actual go/no go gauges" are made and sent to the supplier it becomes a no brainer. However, to get to the point could be a headache.
@punkisinthedetails14704 жыл бұрын
So how do you persuade designers of low or no volume parts say weldment or some machined parts to use GDT?
@vrushalikorde22324 жыл бұрын
How to achieve true position of holes?? if there are 4 holes which are pre casted and there is variation in position of each hole what to do in this case??
@Gdandtbasics4 жыл бұрын
Hello Vrushali, Thank you for your question. This should not be an issue. Remember, the tolerance zones for position are perfectly located and oriented to the DRF (Datum Reference Frame). However, the features themselves (the as cast features) will not be perfect, but the respective axis must “fit” within the specified tolerance zones. Hope this helps! GD&T Basics Team
@vrushalikorde22324 жыл бұрын
@@Gdandtbasics Thank you
@Ansari_Zaid5 ай бұрын
What is repeatable measurement
@Viral01day3 жыл бұрын
Best
@bernieflores23365 жыл бұрын
just wow
@eartheartbaratheon7913 жыл бұрын
It's plain and simple in such a generic example. I'd love to see a similar explanation of some more complicated case :/
@wannabecarguy7 жыл бұрын
At the end of the day there will be countless visits to the customer while you have to educate them on how gdt works . And you end up losing money . As a rule when you see these call outs make the best part you can. And be afraid.
@johnfreeman44356 жыл бұрын
...and engineers that design parts and see that 'true position' option, and decide 'hey! I'll just use that, so they put my holes where I want them! Let's see... I'm running this part with most dimensions at +/-.01, with a few less important ones set to +/-.03... hmm, I want these holes in a good place, so true position at +/-.01! Perfect! Ok, send this to the machining shop, and I don't want to hear any whining. They should be able to make it just fine!' Pay no attention to the fact that an a/b/c true position callout for the holes often will render their 'easy to make' +/-.03 tolerance dimensions to be forced to a +/-.002(or less) to remain in relation to the called position, because if they are outside that distance, the true position falls out of the +/-.01 callout, when the engineer ACTUALLY only wanted the holes to be +/-.01 from the datum, but now that it reads 'true position', well...MAKE it that way. You called it exactly: Make the best part you can, and be afraid. Because engineer intent means nothing compared to the anal-retentive inclination of their receiving QA department... Gods. I HATE when I see a true position callout...
@punkisinthedetails14704 жыл бұрын
So how do you persuade designers of low or no volume parts say weldment or some machined parts to use GDT?
@scottlog2202 жыл бұрын
Using calipers is not like using a random number generator.
@trupositionprobesandgaugec5524 жыл бұрын
For those interested in a handheld probe that measures hole location on the shop floor, check out kzbin.info/www/bejne/fqPSoI1nn8ueipI
@Viral01day3 жыл бұрын
I don't see this type of explanation
@OmarRios898 жыл бұрын
more videos like this. they aew very useful for us. if you can add subtitles, it would be great. thx