Technical Drawing for Product Design : Mastering ISO GPS and ASME GD&T
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| Autore: |
Tornincasa Stefano
|
| Titolo: | Technical Drawing for Product Design : Mastering ISO GPS and ASME GD&T |
| Pubblicazione: | Cham : , : Springer International Publishing AG, , 2024 |
| ©2024 | |
| Edizione: | 2nd ed. |
| Descrizione fisica: | 1 online resource (374 pages) |
| Nota di contenuto: | Intro -- Preface -- About This Book -- Contents -- About the Author -- 1 Introducing GD& -- T and GPS -- 1.1 The Shortcoming of Traditional Coordinate Tolerancing -- 1.2 Traditional Dimensioning Example -- References -- 2 The Geometrical Product Specification (GPS) Language -- 2.1 General Concepts -- 2.2 Classification of Geometrical Tolerances -- 2.3 The Specification World: Types and Symbols of Geometrical Tolerances -- 2.3.1 ISO Tolerance Indicator -- 2.3.2 Drawing Geometrical Specifications -- 2.3.3 Additional Symbols of the ISO 1101 and ISO 5458 Standards -- 2.4 New Symbols and Specification Modifiers of ISO 5458:2018 -- References -- 3 Dimensioning with Geometrical Tolerances -- 3.1 Conversion from Traditional 2D Coordinate Tolerancing -- 3.2 Advantages of Geometrical Product Specification -- References -- 4 The GPS and GD& -- T Language -- 4.1 Historical Evolution of the ISO and ASME Standards -- 4.1.1 The Birth of Tolerances -- 4.2 The GPS Matrix Model -- 4.3 The Fundamental ISO 8015 Standard -- 4.3.1 The Effect of ISO 8015 on Technical Documentation -- 4.3.2 The Main Concepts Defined in ISO 8015:2011 -- 4.4 General Geometrical Tolerances -- 4.4.1 The ISO 22081 Standard -- 4.5 The ASME Y14.5:2018 Standard -- 4.5.1 The Envelope Requirement or Rule #1 of the ASME Standard -- 4.6 The Main Differences Between ISO GPS and ASME GD& -- T Standards -- 4.6.1 The Different Concepts of Pattern and Simultaneous Requirement -- References -- 5 Interdependence Between Dimensions and Geometry -- 5.1 MMR and LMR Requirements -- 5.1.1 Maximum Material Requirement (MMR) -- 5.1.2 Least Material Requirement (LMR) -- 5.1.3 Reciprocity Requirement (RPR) -- 5.2 Direct Indication of Virtual Size -- 5.3 When to Use MMR, LMR, and RFS -- 5.4 The MMR and LMR Requirements in the ASME Standards -- References -- 6 Datums and Datum Systems -- 6.1 Datum Systems. |
| 6.1.1 Association of Datums -- 6.1.2 Datum: Mathematical Concepts -- 6.2 Indication of Datum Features in Technical Documentation -- 6.3 The Datum Systems in ASME Y14.5 -- 6.3.1 Establishing a Datum -- 6.3.2 Location of a Workpiece in a Datum Reference Frame -- 6.3.3 Selection of Datum Features -- 6.4 Examples of Datum Systems in the ISO Standards -- 6.4.1 Datum System with Three Single Datums -- 6.5 Type of Datum -- 6.5.1 Center Planes (Width-Type Features of Size) -- 6.5.2 Common Datum -- 6.5.3 Conical Surfaces as Datum Features -- 6.6 Datum Features Referenced at MMR and LMR (Size Datum) -- 6.7 Locked or Released Degrees of Freedom from a Datum -- 6.7.1 Customised Datum Reference Frame in the ASME Standards -- 6.8 Datum Targets -- 6.8.1 Contacting Feature -- 6.8.2 Datum Targets in the ASME Standards -- References -- 7 Form Tolerances -- 7.1 Introduction -- 7.2 Straightness Tolerance -- 7.2.1 Straightness Parameters -- 7.2.2 Straightness Tolerance Applied to a Feature of Size -- 7.2.3 Straightness Tolerance in the ASME Standards -- 7.3 Flatness Tolerance -- 7.3.1 Flatness Parameters -- 7.3.2 Flatness Control -- 7.3.3 Flatness Tolerance in the ASME Standards -- 7.4 Roundness -- 7.4.1 Roundness Parameters -- 7.4.2 Roundness Tolerance in the ASME Standards -- 7.5 Cylindricity -- 7.5.1 Cylindricity Parameters -- 7.5.2 Cylindricity Tolerance in the ASME Standards -- References -- 8 Orientation Tolerances -- 8.1 Introduction -- 8.2 Parallelism -- 8.2.1 Parallelism of a Median Line Related to a Datum System -- 8.2.2 Parallelism of a Set of Lines on a Surface Related to a Datum Plane -- 8.2.3 Parallelism of a Planar Surface Related to a Datum System -- 8.3 Perpendicularity -- 8.3.1 Perpendicularity of a Median Line Related to a Datum System -- 8.3.2 Perpendicularity of a Median Line Related to a Datum Straight Line. | |
| 8.3.3 Perpendicularity of a Median Line Related to a Datum Plane -- 8.3.4 Perpendicularity of a Planar Surface Related to a Datum Plane -- 8.3.5 Perpendicularity (MMR) Applied to a Feature of Size -- 8.4 Angularity -- 8.4.1 Angularity of a Median Line Related to a Datum Straight Line -- 8.4.2 Angularity of a Median Line Related to a Datum System -- 8.4.3 Angularity of a Planar Surface Related to a Datum Plane -- 8.4.4 Angularity (MMR) Applied to a Feature of Size -- 8.5 Orientation Tolerances in the ASME Standards -- References -- 9 Location Tolerances -- 9.1 Introduction -- 9.2 Position Tolerances -- 9.2.1 Position Tolerance Applied to Median Surfaces -- 9.2.2 Choice of the Modifiers for Position Tolerances -- 9.2.3 Pattern Location -- 9.2.4 Calculation of a Geometrical Position Tolerance -- 9.2.5 Projected Tolerance Zone -- 9.2.6 Position Tolerances in the ASME Standards -- 9.3 Concentricity and Coaxiality Tolerances -- 9.3.1 Concentricity in ASME Y14.5 -- 9.4 Symmetry Tolerances -- 9.4.1 Symmetry in ASME Y14.5 -- References -- 10 Profile Tolerances -- 10.1 Introduction -- 10.2 Rules for Profile Tolerancing (ISO 1660:2017) -- 10.3 Profile Interpretation -- 10.4 Offset Tolerance Zone Specification -- 10.5 Constraint Specification Elements -- 10.5.1 Offset Tolerance Zone with an Unspecified Linear Offset -- 10.5.2 Offset Tolerance Zone with an Unspecified Angular Offset -- 10.6 Pattern Specification (ISO 5458:2018) -- 10.7 The Tolerance of a Profile in the ASME Standards -- 10.7.1 Mathematical Concepts -- 10.7.2 Composite Profile Tolerancing -- 10.7.3 Unilateral and Unequally Disposed Profile Tolerance -- 10.7.4 Coplanarity -- 10.7.5 The New Symbols (ASME Y14.5:2018) -- 10.8 Profile Measurement -- 10.8.1 Profile Measurement in ASME Y14.5.1:2019 -- References -- 11 Run-Out Tolerances -- 11.1 Introduction -- 11.2 Circular Run-Out. | |
| 11.2.1 Concentricity Versus Circular Run-Out -- 11.3 Total Run-Out -- 11.4 Run-Out Control in the ASME Y14.5 Standards -- 11.4.1 Run-Out on a Tangent Plane -- 11.4.2 Run-Out Tolerance Application to an Assembly -- 11.5 How to Inspect Run-Out Tolerances -- References -- 12 Geometrical Specification for Non-rigid Parts -- 12.1 Non-rigid Parts -- 12.2 The ISO 10579-NR Standard -- 12.3 Non-rigid Parts in the ASME Y14.5:2018 Standard -- References -- 13 Linear Sizes -- 13.1 Introduction -- 13.2 The ISO 14405 Standards: Terms and Definitions -- 13.2.1 ISO 14405-1: Linear Size -- 13.2.2 ISO 14405-3: Angular Sizes -- 13.3 Linear Sizes in the ASME Standards -- 13.3.1 Evaluation of Actual Local Size -- 13.3.2 Continuous Features of Size -- References -- Bibliography -- Index. | |
| ISBN: | 9783031511875 |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910841867603321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |
Serie:
Springer Tracts in Mechanical Engineering Series