5. Given the following sentence descriptions of the geometric tolerance information, correctly sketch the feature control frames for each. a. The feature must be flat within a tenth of a millimeter tolerance zone. b. The feature must be straight within a thousandth of an inch tolerance zone. c. The feature must be round within five-tenths of a millimeter tolerance zone. d. The feature (planar surface) must be perpendicular within a five-thousandths of an inch tolerance zone relative to datum feature A. e. The feature (axis of a cylinder) must be perpendicular within a one-hundredth of a millimeter cylindrical toler- ance zone at maximum material condition relative to datum feature D. f. The feature (planar surface) must be parallel within a thousandth of an inch tolerance zone relative to datum feature A. g. The feature (axis of a cylinder) must be parallel within a three-hundredths of a millimeter cylindrical tolerance zone at maximum material condition relative to datum feature M. h. The total runout of the surface must be within a five-hundredths of a millimeter tolerance zone relative to datum feature A. i. The total surface profile of the surface must be within a two-thousandths of an inch tolerance zone relative to datum feature A. j. The features (axis of a hole) must be positioned within a five-thousandths of a millimeter cylindrical tolerance
5. Given the following sentence descriptions of the geometric tolerance information, correctly sketch the feature control frames for each. a. The feature must be flat within a tenth of a millimeter tolerance zone. b. The feature must be straight within a thousandth of an inch tolerance zone. c. The feature must be round within five-tenths of a millimeter tolerance zone. d. The feature (planar surface) must be perpendicular within a five-thousandths of an inch tolerance zone relative to datum feature A. e. The feature (axis of a cylinder) must be perpendicular within a one-hundredth of a millimeter cylindrical toler- ance zone at maximum material condition relative to datum feature D. f. The feature (planar surface) must be parallel within a thousandth of an inch tolerance zone relative to datum feature A. g. The feature (axis of a cylinder) must be parallel within a three-hundredths of a millimeter cylindrical tolerance zone at maximum material condition relative to datum feature M. h. The total runout of the surface must be within a five-hundredths of a millimeter tolerance zone relative to datum feature A. i. The total surface profile of the surface must be within a two-thousandths of an inch tolerance zone relative to datum feature A. j. The features (axis of a hole) must be positioned within a five-thousandths of a millimeter cylindrical tolerance
Precision Machining Technology (MindTap Course List)
2nd Edition
ISBN:9781285444543
Author:Peter J. Hoffman, Eric S. Hopewell, Brian Janes
Publisher:Peter J. Hoffman, Eric S. Hopewell, Brian Janes
Chapter3: Job Planning, Benchwork, And Layout
Section3.1: Understanding Drawings
Problem 1RQ: Information such as tolerances and scale can be found in the________ of an engineering drawing.
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Transcribed Image Text:5. Given the following sentence descriptions of the geometric tolerance information, correctly sketch the feature
control frames for each.
a. The feature must be flat within a tenth of a millimeter tolerance zone.
b. The feature must be straight within a thousandth of an inch tolerance zone.
c. The feature must be round within five-tenths of a millimeter tolerance zone.
d. The feature (planar surface) must be perpendicular within a five-thousandths of an inch tolerance zone relative
to datum feature A.
e. The feature (axis of a cylinder) must be perpendicular within a one-hundredth of a millimeter cylindrical toler-
ance zone at maximum material condition relative to datum feature D.
f. The feature (planar surface) must be parallel within a thousandth of an inch tolerance zone relative to datum
feature A.
g. The feature (axis of a cylinder) must be parallel within a three-hundredths of a millimeter cylindrical tolerance
zone at maximum material condition relative to datum feature M.
h. The total runout of the surface must be within a five-hundredths of a millimeter tolerance zone relative to
datum feature A.
i. The total surface profile of the surface must be within a two-thousandths of an inch tolerance zone relative to
datum feature A.
j. The features (axis of a hole) must be positioned within a five-thousandths of a millimeter cylindrical tolerance
zone at maximum material condition relative to primary datum feature D, secondary datum feature E, and ter-
tiary datum feature F.
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