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دسته بندی: مهندسی مکانیک ویرایش: نویسندگان: Stefano Tornincasa سری: Springer Tracts in Mechanical Engineering ISBN (شابک) : 3030608530, 9783030608538 ناشر: Springer سال نشر: 2020 تعداد صفحات: 310 زبان: English فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود) حجم فایل: 25 مگابایت
در صورت تبدیل فایل کتاب Technical Drawing for Product Design: Mastering ISO GPS and ASME GD&T به فرمت های PDF، EPUB، AZW3، MOBI و یا DJVU می توانید به پشتیبان اطلاع دهید تا فایل مورد نظر را تبدیل نمایند.
توجه داشته باشید کتاب طراحی فنی برای طراحی محصول: تسلط بر GPS GPS و ASME GD&T نسخه زبان اصلی می باشد و کتاب ترجمه شده به فارسی نمی باشد. وبسایت اینترنشنال لایبرری ارائه دهنده کتاب های زبان اصلی می باشد و هیچ گونه کتاب ترجمه شده یا نوشته شده به فارسی را ارائه نمی دهد.
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 Reference 2 The Geometrical Product Specification (GPS) Language 2.1 General Concepts 2.2 Classification of Geometric 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 2.3.4 New Symbols and Specification Modifiers of ISO 5458:2018 3 Dimensioning with Geometrical Tolerances 3.1 Conversion from Traditional 2D Coordinate Tolerancing 3.2 Advantages of Geometrical Product Specification 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 Geometric Tolerances 4.4.1 The New ISO 22081 Standard 4.5 The New 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 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 Centerplanes (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 Reference 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 Reference 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 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 Composite Profile Tolerancing 10.7.2 Unilateral and Unequally Disposed Profile Tolerance 10.7.3 Coplanarity 10.7.4 The New Symbols (ASME Y14.5:2018) 11 Run-Out Tolerances 11.1 Introduction 11.2 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 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 Reference 13 Linear Sizes 13.1 Introduction 13.2 The ISO 14405 Standards: Terms and Definitions 13.3 Default Specification Operator for Size 13.4 Drawing Indications Reference Bibliography Index