Geometric Design Tolerancing: Theories, Standards and Applications

Geometric Design Tolerancing: Theories, Standards and Applications edited by Hoda A. ElMaraghy.

The importance of proper geometric dimensioning and tolerancing as a means of expressing the designer's functional intent and controlling the inevitable geometric and dimensional variations of mechanical parts and assemblies, is becoming well recognized. The research efforts and innovations in...

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Bibliographic Details
Corporate Author: SpringerLink (Online service)
Other Authors: ElMaraghy, Hoda A. (Editor)
Format: eBook
Language:English
Published: New York, NY : Springer US : Imprint: Springer, 1998.
Edition:1st ed. 1998.
Series:Springer eBook Collection.
Subjects:
Chemical engineering.
Physical measurements.
Measurement   .
Manufactures.
Engineering design.
Electronic resources (E-books)
Online Access:Click to view e-book
Holy Cross Note:Loaded electronically.
Electronic access restricted to members of the Holy Cross Community.
Table of Contents:
  • Modeling Representation and Processing of Tolerances,Tolerance Inspection: A Survey of Current Hypothesis
  • I Tolerance Theory and Standards
  • 1 International Standards for Design Tolerancing Review and Future Perspective
  • 2 Research In Statistical Tolerancing: Examples of Intrinsic Non-Normalities and their effects
  • 3 Composing Distribution Function Zones for Statistical Tolerance Analysis
  • 4 ISO Deliberates Statistical Tolerancing
  • 5 Relations Between ISO 1101 and Geometric Tolerances and Vectorial Tolerances - Conversion Problems
  • 6 The Tools & Rules for Computer Automated Datum Reference Frame Construction
  • II Tolerance Representation in CAD
  • 7 Remarks on the Essential Element of Tolerancing Schemes - Short Communication
  • 8 The TTRS: 13 Constraints for Dimensioning and Tolerancing
  • 9 Variational Method for Assessment of Toleranced Features
  • 10 The Application of FAST Diagrams to Dimensioning and Tolerancing
  • 11 Identifying and Quantifying Functional Element Dispersions During Functional Analysis
  • 12 Three Dimensional Functional Tolerancing with Proportioned Assemblies Clearance Volume (U.P.E.L.: Unions Pondérées d’Espaces de Liberté): application to setup planning
  • III Modeling of Geometric Errors
  • 13 Determination of Part Position Uncertainty Within Mechanical Assembly Using Screw Parameters
  • 14 A Computation Method for the Consequences of Geometric Errors in Mechanisms
  • 15 A Unified Model for Variation Simulation of Sheet Metal Assemblies
  • 16 Practical Applications for Intersections of Mechanical Primitives for Geometric Tolerancing
  • 17 Functional Dimensioning and Tolerancing of Manufactured Parts for Fluid Leakage Control
  • 18 Geometric Tolerancing for Assembly with Maximum Material Parts
  • 19 More on the Effects of Non-Normal Statistics in Geometric Tolerancing - Short Communication
  • IV Tolerance Analysis and Synthesis
  • 20 A New Algorithm for Combinatorial Optimization: Application to Tolerance Synthesis with Optimum Process Selection
  • 21 Automated Cost Modeling for Tolerance Synthesis Using Manufacturing Process Data, Knowledge Reasoning and Optimization
  • 22 A Comprehensive System for Computer Aided Tolerance Analysis of 2-D and 3-D Mechanical Assemblies
  • 23 Parametric Kinematic Tolerance Analysis of Planar Pairs with Multiple Contracts
  • 24 Advanced Methodology and Software for Tolerancing and Stochastic Optimization
  • 25 Towards a Designed Experiments Approach to Tolerance Design
  • V Evaluation of Geometric Deviations
  • 26 An Iterative Approach to Profile Evaluation Using Interpolation of Measured Positions and Surface Normals
  • 27 Virtual Gage with Internal Mobilities for the Verification of Functional Specifications
  • 28 On the Accurate Evaluation of Geometric Deviations from CMM Data
  • 29 Tolerancing of Free Form Surfaces
  • 30 Minimum Zone Evaluation of Cylindricity Using Non-Linear Optimization Method
  • VI Industrial Applications and CAT Systems
  • 31 Geometrical Evaluation Models in Sheet Metal Forming: A Classification Method for Shape Errors of Free-Form Surfaces
  • 32 Tolerancing Problems for Aircraft Industries
  • 33 Teaching Tolerances: A Comparison Between The Conventional and Reverse Engineering Approaches
  • 34 Current Status of CAT Systems
  • 35 Tolerance Analysis Using VSA-3D for Engine Applications
  • Authors’ index
  • Keyword index.

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