Product Life-cycle Management - Geometric Variations

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Klappentext This book gives a comprehensive view of the most recent major international research in the field of tolerancing, and is an excellent resource for anyone interested in Computer Aided Tolerating.It is organized into 4 parts. Part 1 focuses on the more general problems of tolerance analysis and synthesis, for tolerancing in mechanical design and manufacturing processes. Part 2 specifically highlights the simulation of assembly with defects, and the influence of tolerances on the quality of the assembly. Part 3 deals with measurement aspects, and quality control throughout the life cycle. Different measurement technologies and methods for estimating uncertainty are considered. In Part 4, different aspects of tolerancing and their interactions are explored, from the definition of functional requirement to measurement processes in a PLM approach. Zusammenfassung This book gives a comprehensive view of the most recent major international research in the field of tolerancing, and is an excellent resource for anyone interested in Computer Aided Tolerating.It is organized into 4 parts. Part 1 focuses on the more general problems of tolerance analysis and synthesis, for tolerancing in mechanical design and manufacturing processes. Part 2 specifically highlights the simulation of assembly with defects, and the influence of tolerances on the quality of the assembly. Part 3 deals with measurement aspects, and quality control throughout the life cycle. Different measurement technologies and methods for estimating uncertainty are considered. In Part 4, different aspects of tolerancing and their interactions are explored, from the definition of functional requirement to measurement processes in a PLM approach. Inhaltsverzeichnis 25593313

List of contents

Preface xix

PART I. TOLERANCE ANALYSIS AND SYNTHESIS 1

Chapter 1. A New Method of Expressing Functional Requirementsand How to Allocate Tolerance to Parts 3
Pierre-Antoine ADRAGNA and Pascal HERNANDEZ

Chapter 2. A Parametric Approach to Determine MinimumClearance in Overconstrained Mechanisms 21
Philippe SERRE, Faida M'HENNI and Andre CLEMENT

Chapter 3. Quick GPS: Tolerancing of an Isolated Part39
Robin CHAVANNE and Bernard ANSELMETTI

Chapter 4. Synthesis and Statistical Analysis for 3DTolerancing 59
Max GIORDANO, Pascal HERNANDEZ and Dimitri DENIMAL

Chapter 5. Reliability Analysis of the FunctionalSpecification Applied to a Helicopter Gas Turbine 77
Yann LEDOUX, Denis TEISSANDIER and Samir SID-AHMED

Chapter 6. Inertial Tolerancing According to ISO GPS99
Dimitri DENIMAL, Max GIORDANO, Maurice PILLET and AlainSERGENT

Chapter 7. Tolerance Analysis based on Quantified ConstraintSatisfaction Problems 125
Ahmed Jawad QURESHI, Jean-Yves DANTAN, Jerome BRUYERE and RegisBIGOT

Chapter 8. Tolerance Analysis in Manufacturing Using the MMP,Comparison and Evaluation of Three Different Approaches145
Mojtaba KAMALI NEJAD, Frederic VIGNAT and FrancoisVILLENEUVE

PART II. SIMULATION OF ASSEMBLIES 173

Chapter 9. A Chronological Framework for Virtual Sheet MetalAssembly Design 175
Johan SEGEBORN, Anders CARLSSON, Johan S. CARLSON and RikardSODERBERG

Chapter 10. A Method to Optimize Geometric Quality and MotionFeasibility of Assembly Sequences 191
Domenico SPENSIERI, Johan S. CARLSON, Lars LINDKVIST, RobertBOHLIN and Rikard SODERBERG

Chapter 11. Modeling and Simulation of Assembly Constraintsin Tolerance Analysis of Rigid Part Assemblies 209
Pasquale FRANCIOSA, Salvatore GERBINO and StanislaoPATALANO

Chapter 12. Tolerance Analysis with detailed Part Modeling231
Tobias STOLL, Stefan WITTMANN and Harald MEERKAMM

Chapter 13. Assembly Method Comparison Including Form Defect245
Stephane MORIERE, Jean MAILHE, Jean-Marc LINARES and Jean-MichelSPRAUEL

Chapter 14. Influence of Geometric Defects on Service Life259
Laurent ZAMPONI, Emmanuel MERMOZ, Jean-Marc LINARES andJean-Michel SPRAUEL

Chapter 15. GapSpace Multi-dimensional Assembly Analysis273
Edward MORSE and Xiaobin YOU

PART III. MEASUREMENT 299

Chapter 16. Impact of the Sampling Strategy on GeometricalChecking Uncertainties 301
Jean MAILHE, Jean-Marc LINARES, Jean-Michel SPRAUEL andJean-Paul RAYNAL

Chapter 17. Predetermination of Measurement Uncertainty inthe Application of Computed Tomography 317
Albert WECKENMANN and Philipp KRAMER

Chapter 18. Application of Function Oriented Parameters forAreal Measurements in Surface Engineering 331
Albert WECKENMANN and Ozgur TAN

Chapter 19. Validation of a Reception or Production ControlProcess by the Inertial Indicator IG 345
Daniel DURET, Maurice PILLET, Alain SERGENT and DimitriDENIMAL

Chapter 20. Detection of Areas with Critically ReducedThickness of Formed Sheet Metal Parts Using Two OppositelyPositioned Fringe Projection Systems 355
Albert WECKENMANN and Natasa PETROVIC

Chapter 21. Variability of the Manufacturing Process in theGPS Framework: A Case Study 371
Manuela DE MADDIS and Martina GANDINI

Chapter 22. Virtual CMM-based Sampling Strategy Optimization385
Giovanni MORONI and Stefano PETRO

Chapter 23. Impact of Workpiece Shape Deviations inCoordinate Metrology 405
Gisela LANZA and Jochen PETERS

Chapter 24. Quality Assurance of Micro-gears via 3D SurfaceCharacterization 419
Gisela LANZA and Benjamin VIERING

PART IV. TOLERANCING IN THE PLM 431

Chapter 25. Geometric Specification at the Beginning of theProduct Lifecycle 433
Renaud COSTADOAT, Luc MATHIEU, Hugo FALGARONE and BenoitFRICERO

Chapter 26. Ontological Model of Tolerances forInteroperability in Product Lifecycle 455
Gaurav AMETA and Patrick HOFFMAN

Chapter 27. A PLM-Based Multi-Sensor Integration MeasurementSystem for Geometry Processing 469
Zhao HAIBIN, Nabil ANWER and Pierre BOU

About the author

Max Giordano is emeritus professor at the University of Savoy France. His research interests include geometry modeling, computer-aided design and computer-aided tolerancing, and he developed the concept of "domain" for the 3-D tolerance analyses and synthesis.
François Villeneuve is Professor at the University of Grenoble (France) and vice-director of the G-SCOP research laboratory. His research interests include Computer Aided Process Planning (CAPP), Knowledge Management, Product Design and Tolerancing. In Tolerancing, he is developing a 3D geometrical model for product defects through the product life cycle.
Luc Mathieu is Professor at the University of Paris-Sud 11, in the Department of Production Engineering (France). He is Director of the Automated Production Research Laboratory (LURPA) in the Ecole Normale Supérieure de Cachan (France). He is also a fellow member of CIRP (International Academy of Production Engineering). His research interests include geometry, computer-aided tolerancing, coordinates metrology and digital production engineering.

Summary

This book gives a comprehensive view of the most recent major international research in the field of tolerancing, and is an excellent resource for anyone interested in Computer Aided Tolerating. Part 1 focuses on the more general problems of tolerance analysis and synthesis, for tolerancing in mechanical design and manufacturing processes.