MMC position is helpful for creating functional gages that can be used to quickly insert into the part see if everything is within spec. Position when paired with the size tolerance of that feature can control the location, orientation, form, and the size of the feature all at once. Position used with Maximum Material Condition becomes a very useful control. LMC with position is a little less common but often used when controlling a minimum wall thickness is desired. You will see position called with MMC very commonly in clearance bolt patterns where location of all the bolts is dependent on the size of the clearance hole. If you specify the control using MMC, it allows the locational tolerance to be dependent on the size of the feature. The position of a feature of size with MMC is used when a functional gage is ideal for checking the part, typically this is used when a clearance fit is utilized with some sort of fastener. Position using material condition modifier (MMC/LMC) 008” so the part is with in spec and can be passed. ![]() Using the shown formula, the diametric deviation is calculated to be. Remember, in order to capture orientation deviations, multiple measurements will need to be taken along the “depth” of the hole or feature.įor the example above, the hole is measured to be off by. If your diametric deviation is less than the specified tolerance, the feature passes. These measurements can quickly be converted to a total diametric deviation. To measure or inspect the feature regarding the position control, X and Y measurements can be taken of the feature with respect to the datum features called out in the feature control frame. The entire features axis, midplane or point would need to be located within this tolerance zone. The cylindrical tolerance zone would extend though the thickness of the part if this is a hole. If the feature of size is a cylindrical feature such as a hole in a part, the size value in the feature control frame is preceded by a diametric symbol to represent a circular or cylindrical tolerance zone. The position is most often referenced with two or three datum features to exactly locate and orient the true position. This means that you will have an exact point where the position should be with respect to a datum reference frame and your tolerance specifies how far from this you can be. When specifying a position tolerance, datum features are referenced within the feature control frame. The tolerance is a 3-Dimensional tolerance zone that surrounds the true position. Again, True Position is the exact perfect location of the feature, located and oriented to the datum reference frame using Basic Dimensions. Position in terms of the axis, point, or plane defines how much variation a feature can have from a specified exact true location. It can be used almost anywhere to represent any feature of size. When you have a hole in a part such as a bolt pattern, true position is usually called out. However, this can also be applied to any feature of size in need of a location tolerance, such as a pin, a boss, or even a keyway. In the image below you can see how a hole is called out using the position tolerance symbol. Position can be used with Max Material Condition ( MMC), Least Material Condition ( LMC), projected tolerances, and tangent planes. Locating surfaces is to be controlled via Profile. ![]() See the above central elements of a hole, slot and sphere. Position may be applied to any feature of size (Feature with physical dimensions like a hole, slot, boss, tab, or sphere) and control the central elements of these size features. For clarity on these two terms check out our article and video here. However, it is correctly termed in the ASME Y14.5 standard as simply “Position”. Application:Īlthough incorrect, we title this page and sometimes refer to the symbol as “True Position” since this is typically the term people are referencing when they are looking for the position tolerance. However, since this is such a useful symbol, we will continue to add content and examples for other uses of this nifty little symbol in the coming months. ![]() The two methods of using Position discussed on this page will be RFS or Regardless of Feature Size and under a material condition ( Maximum Material Condition or Least Material Condition). Position is one of the most useful and most complex of all the symbols in GD&T. In other words, the Geometric Dimensioning and Tolerancing “Position” tolerance is how far your feature’s location can vary from its “True Position”. The “ True Position” is the exact coordinate, or location defined by basic dimensions or other means that represents the nominal value. True Position, or just Position as the ASME Y14.5 standard calls it, is defined as the total permissible variation that a feature can have from its “true” position.
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