Geometrical dimensioning and tolerancing for design, manufacturing and inspection : a handbook for geometrical product specification using ISO and ASME standards / Georg Henzold.

Format:

Book

Author/Creator:

Henzold, G., author.

Language:

English

Subjects (All):

Tolerance (Engineering).

Physical Description:

1 online resource (486 pages)

Edition:

Third edition.

Place of Publication:

Kidlington, Oxford, England ; Cambridge, Massachusetts : Butterworth-Heinemann, [2021]

Summary:

Geometrical Dimensioning and Tolerancing for Design, Manufacturing and Inspection: A Handbook for Geometrical Product Specification Using ISO and ASME Standards, Third Edition presents the state-of-the art in geometrical dimensioning and tolerancing.

Contents:

Intro

Geometrical Dimensioning and Tolerancing for Design, Manufacturing and Inspection: A Handbook for Geometrical Product Spec ...

Copyright

Contents

Author Biography

Preface

Notation

Subscripts

Abbreviations

ISO Drawing Rules

Text Equivalents

Chapter 1: General

1.1. Properties of the surface

1.2. Principles for tolerancing

Chapter 2: ISO Geometrical Product Specifications (GPS), New Approach

2.1. ISO GPS standards, overview, GPS matrix

2.1.1. ISO GPS standards overview

2.1.2. GPS matrix

2.2. Terms and definitions

2.3. Filters

2.4. Datums

2.5. Principle of independency and or

2.6. Conformance rule

2.7. New approach principles and rules

2.8. Application of the new approach

Chapter 3: Basics of Geometrical Tolerancing

3.1. Symbols

3.2. Definitions of geometrical tolerances

3.2.1. General

3.2.2. General types of geometrical tolerances, ISO defaults

3.2.3. Geometric tolerances

3.2.3.1. Location tolerances of integral surfaces

3.2.3.1.1. ISO defaults

3.2.3.1.2. ISO non-defaults (specials)

3.2.3.2. Orientation tolerances of integral features

3.2.3.2.1. ISO defaults

3.2.3.2.2. ISO non-defaults (specials)

3.2.3.2.3. Angular size tolerances

3.2.3.3. Form tolerances of integral surfaces

3.2.3.3.1. ISO defaults

3.2.3.3.2. ISO non-defaults (specials)

3.2.3.4. Tolerances of integral lines

3.2.3.4.1. Form tolerances of integral lines, ISO defaults

3.2.3.4.2. ISO non-defaults (specials)

3.2.3.4.3. Orientation and location tolerances of integral lines

3.2.3.5. Run-out tolerances

3.2.3.5.1. Radial run-out tolerances

3.2.3.5.2. Axial run-out tolerances

3.2.3.5.3. Run-out tolerances in any direction

3.2.3.6. Location tolerances of derived features

3.2.3.6.1. ISO defaults

3.2.3.6.2. ISO non-defaults (specials).

3.2.3.7. Orientation tolerances for derived features, ISO defaults

3.2.3.8. Form tolerances of derived features, ISO defaults

3.3. Datums

3.3.1. General

3.3.2. Datum targets

3.3.3. Change of the datum system

3.3.4. Interchanging of toleranced feature and datum

3.3.5. Inspection appropriate tolerancing

3.4. Flexible parts

3.5. Decomposition of measurement results

3.6. Vectorial dimensioning and tolerancing VD&amp

T

Chapter 4: Size Tolerancing

4.1. Linear sizes

4.2. Equal thickness

4.3. Envelope requirement

4.3.1. Definition, history

4.3.2. Application of the envelope requirement

4.3.3. Tolerancing principle

4.4. Maximum material requirement

4.4.1. Definitions

4.4.2. Description of the maximum material requirement

4.4.3. Application of the maximum material requirement

4.4.3.1. General

4.4.3.2. Maximum material requirement for the toleranced feature

4.4.3.3. Maximum material requirement 0

4.4.3.4. Comparison of 0.1 and 0

4.4.3.5. Maximum material requirement for the datum

4.4.3.6. Reciprocity requirement together with the maximum material requirement

4.4.4. Education

4.5. Tolerance chains (accumulation of tolerances)

4.6. Least material requirement

4.6.1. Definitions

4.6.2. Description of least material requirement

4.6.3. Application of least material requirement

4.6.3.1. General

4.6.3.2. Least material requirement for the toleranced feature

4.6.3.3. Least material requirement for the datum

4.6.4. Reciprocity requirement together with the least material requirement

4.7. Statistical tolerancing

4.8. Population specifications

4.9. Angular sizes

Chapter 5: Position Tolerancing

5.1. Definitions

5.2. Theoretically exact dimensions, CZ, SZ, SIM, ± tolerances

5.3. Form of the position tolerance zone.

5.4. Calculation of position tolerances

5.5. Projected tolerance zones

5.6. Further examples

5.6.1. Holes for fasteners

5.6.2. Counterbores

5.6.3. Holes in a line

5.6.4. Group of holes with and without datum hole

5.6.5. Crossed axes

5.6.6. Different location tolerances for different features drawn on the same centre line

5.6.7. Toleranced coplanar and coaxial feature and datum

5.6.8. Planar surface as datum for a position tolerance, with offset

5.6.9. Sequence and maximum material requirement for datums

5.6.10. Datum systems with and without

5.6.11. Coaxial shafts (e.g. for bearings)

5.6.12. Coaxial holes (e.g. for hinges, bearings)

5.6.13. Hexagon fit

5.6.14. Splines

5.6.15. Plug and socket

5.6.16. Spacings

5.6.17. Minimum wall thickness

5.6.18. Keyways

5.6.19. Rings and bushes

5.6.20. Rectangular fit

5.6.21. Kinematics

5.6.22. Maximum material requirement, application

Chapter 6: Profile Tolerancing

6.1. Definitions

6.2. Further examples

6.2.1. Complex surface

6.2.2. Window

6.2.3. Perpendicularity

6.2.4. Groups

6.2.5. Inclined surface

6.2.6. Stock material

6.2.7. Wedges

6.2.8. Cones

6.2.9. Fits

Chapter 7: ± Tolerancing, General Tolerancing

7.1. General

7.2. Sizes

7.3. Non-sizes

7.3.1. Steps

7.3.2. Centre distances

7.3.3. Radii tolerances

7.3.4. Contours

7.3.5. Chain dimensioning

7.4. Profile tolerances, position tolerances instead of ± tolerances, advantages

7.5. General tolerances

7.6. Further general tolerances

7.6.1. General tolerances for plastic parts

7.6.2. General tolerances for metallic castings

7.6.3. Multiple general tolerances on the same part

7.7. General size tolerances

7.8. General tolerances according to ISO 2768

Chapter 8: Recommended Procedure for Tolerancing.

8.1. General

8.2. Dimensioning

Chapter 9: Tolerancing of Edges

9.1. Edges of undefined shape

9.2. Transitions (edges of defined shape)

Chapter 10: Tolerancing of Metallic Castings

10.1. General

10.2. Additional symbols and definitions

10.3. Calculating of the moulded nominal dimension

10.4. Calculation of the minimum wall thickness

10.5. Calculation of the moulded nominal dimensions when the datum system is changed for the machined surfaces

10.6. General tolerances for castings

10.7. Drawings for ordering castings

10.7.1. Castings remaining as moulded

10.7.2. Casting ordered as moulded, planned machining later

10.7.3. Casting ordered as premachined

10.7.4. Casting ordered as moulded by final machined drawing

10.7.5. Casting ordered as moulded by combined drawing for moulding and machining

10.8. General tolerances ISO 8062-3

Chapter 11: Tolerancing of Movable Assemblies

11.1. Symbols

11.2. Rules

11.3. Examples

Chapter 12: Respecting Geometrical Tolerances During Manufacturing

12.1. Manufacturing influences

12.2. Recommendations for manufacturing

12.3. Process capability

Chapter 13: Inspection of Geometrical Deviations (Verification)

13.1. General

13.2. Terms

13.3. Alignment of the workpiece

13.3.1. General

13.3.2. Minimum requirement

13.3.3. Additional alignment requirements for the measurement of roundness or cylindricity deviations

13.3.3.1. Axis of measurement

13.3.3.2. Inclination of the axis

13.3.3.3. Offset of the workpiece axis

13.3.4. Minimum rock requirement

13.4. Interchanging of the datum feature and toleranced feature

13.5. Simplified inspection method

13.6. Evaluation of measurement

13.7. Methods of inspection

13.7.1. Assessment of straightness deviations of lines of surfaces

13.7.1.1. Definition.

13.7.1.2. Type of detecting

13.7.1.3. Measuring methods

13.7.2. Assessment of straightness deviations of axes

13.7.2.1. Definition

13.7.2.2. Assessment of the coordinates of axes

13.7.2.3. Assessment with one dial indicator

13.7.2.4. Assessment with two dial indicators

13.7.2.5. Assessment with form measuring instrument or with coordinate measuring system

13.7.3. Assessment of flatness deviations

13.7.3.1. Definition

13.7.3.2. Type of detection and measurement methods

13.7.3.3. Assessment of the flatness deviation with straightedge and dial indicator

13.7.4. Assessment of roundness deviations

13.7.4.1. Definition

13.7.4.2. Measuring methods

13.7.4.3. Two-point measurement, three-point measurement

13.7.4.4. Assessment with measuring ring or measuring plug

13.7.4.5. Simplified inspection

13.7.5. Assessment of cylindricity deviations

13.7.5.1. Definition

13.7.5.2. Measuring strategies

13.7.5.3. Measuring methods

13.7.5.3.1. Measuring the cylindricity deviation

13.7.5.3.2. Assessment by measurement of components

13.7.5.3.3. Simplified inspection

13.7.6. Assessment of profile deviations of lines

13.7.6.1. Definition

13.7.6.2. Measuring methods

13.7.7. Assessment of profile deviations of surfaces

13.7.7.1. Definition

13.7.7.2. Measuring methods

13.7.8. Assessment of orientation deviations

13.7.8.1. Definition

13.7.8.2. Combination of features

13.7.8.3. Measurement methods

13.7.8.3.1. General

13.7.8.3.2. Assessment of orientation deviations of straight generator lines or plane surfaces by measuring distances

13.7.8.3.3. Assessment of the orientation deviation of an axis by measuring distances

13.7.8.3.4. Assessment of orientation deviations with form measuring instruments or coordinate measuring systems.

13.7.9. Assessment of location deviations.

Notes:

Description based on print version record.

Description based on publisher supplied metadata and other sources.

ISBN:

0-323-85327-7

OCLC:

1224361893