Geo-metrics: The Metric Application of Geometric Tolerancing Techniques as Based Upon ANSI Y14.5M-1982 Practices |
Contents
Why use geometric dimensioning and tolerancing? | 7 |
Symbolic method of stating a basic or theoretical exact valuerecommended | 13 |
Geometric characteristicsform orientation profile runout and locational | 20 |
Copyright | |
17 other sections not shown
Other editions - View all
Common terms and phrases
ance angular ANSI applied calculated center plane CIRCULAR RUNOUT circularity tolerance concentricity tolerance DATUM AXIS datum D datum feature datum hole datum points datum reference frame datum surface datum target departure from MMC design requirements dial indicator diameter dimensioning and tolerancing drawing FEATURE AXIS feature control frame FIGURE flatness FORM AT MMC functional gage GAGE PIN high limit illustration individual feature least material condition low limit Lowell W mating part features maximum material condition median plane method MMC HOLE MMC size Note PATTERN LOCATING perfect form POSITION TOL position tolerance zone position tolerancing PRIMARY DATUM PLANE profile tolerance relationship respect to datum rotation runout tolerance SECONDARY DATUM shaft shown SIMULATED DATUM slot SPECIFIED DATUM surface of revolution SYMBOL MEANING tertiary datum total runout total tolerance TOTAL WIDE ZONE TRUE POSITION variation virtual condition WIDE TOL ZONE WIDTH XX.X XX.X ZONE AT MMC