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Skin model shapes: a new paradigm for the tolerance analysis and the geometrical variations modelling in mechanical engineering

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Bibliographische Detailangaben
Beteilige Person:	Schleich, Benjamin (VerfasserIn)
Format:	Hochschulschrift/Dissertation Buch
Sprache:	Englisch
Veröffentlicht:	Düsseldorf VDI Verlag GmbH [2017]
Ausgabe:	Als Manuskript gedruckt
Schriftenreihe:	Fortschritt-Berichte VDI. Reihe 1, Konstruktionstechnik, Maschinenelemente 438
Schlagwörter:	Konstruktionselement Formabweichung Fertigungstoleranz Formtoleranz Toleranzanalyse Produktentwicklung Hochschulschrift
Links:	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029714054&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
Umfang:	XIII, 241 Seiten Illustrationen, Diagramme
ISBN:	9783183438013

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Datensatz im Suchindex

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adam_text	C ONTENTS ABBREVIATIONS AND SYMBOLS VIII ZUSAMMENFASSUNG XII ABSTRACT XIII 1 INTRODUCTION 1 1.1 THE CONTEXT: GEOMETRICAL VARIATIONS M ANAGEM ENT ............................................. 1 1.2 THE ESSENCE: THE CONCEPT OF SKIN MODEL SHAPES AS A NEW PARADIGM FOR MOD ELLING GEOMETRICAL V ARIATIONS................................................................................. 2 1.3 THE AIM: A FRAMEWORK FOR THE TOLERANCE ANALYSIS BASED ON SKIN MODEL SHAPES 3 1.4 THE APPROACH: SCOPE AND OUTLINE OF THE W O R K ................................................... 4 2 CONTEXT AND STATE OF THE ART 5 2.1 GEOMETRICAL VARIATIONS MANAGEMENT THROUGHOUT THE PRODUCT LIFE-CYCLE . . . 5 2.2 STANDARDS FOR THE GEOMETRICAL PRODUCT SPECIFICATION AS THE PREDOMINANT MEANS OF COMMUNICATION IN GEOMETRICAL VARIATIONS M ANAGEM ENT ................................. 10 2.2.1 A BRIEF HISTORY OF THE STANDARDS FOR THE GEOMETRICAL PRODUCT SPECIFIC ATION ............................................................................................................... 12 2.2.2 FUNDAMENTALS AND BASIC CONCEPTS OF MODERN GPS STANDARDS ............... 17 2.2.3 RECENT TRENDS REGARDING THE GPS S TA N D A RD S .......................................... 26 2.2.4 FURTHER APPROACHES FOR THE SPECIFICATION OF GEOMETRICAL REQUIREMENTS 27 2.3 TOLERANCING AS AN INTEGRAL PART OF GEOMETRICAL VARIATIONS MANAGEMENT .... 28 2.3.1 DISAMBIGUATION AND D E FIN ITIO N ............................................................... 29 2.3.2 TOLERANCING ACTIVITIES THROUGHOUT THE PRODUCT L IFE -C Y C LE .................. 31 2.3.3 COMPUTER-AIDED TOLERANCE A N A LY SIS ...................................................... 45 3 IDENTIFICATION OF NEED FOR RESEARCH 63 3.1 DISCUSSION OF THE STATE OF THE A R T ........................................................................ 63 3.2 RESEARCH GAP AND SCIENTIFIC CHALLENGE .................................................................. 64 3.3 FURTHER OUTLINE OF THE W O R K .................................................................................... 66 4 THE CONCEPT OF SKIN MODEL SHAPES AS A NEW PARADIGM FOR THE MODELLING OF GEOMETRICAL VARIATIONS 67 4.1 MOTIVATION AND MODEL C ONCEPTUALISATION............................................................... 67 4.2 REPRESENTATION AND VISUALISATION OF SKIN MODEL S H A P E S .................................... 69 4.3 GENERATION OF SKIN MODEL S H A P E S ........................................................................... 71 4.3.1 RELATED W O R K ............................................................................................. 71 4.3.2 OVERALL FRAM EW ORK.................................................................................... 73 4.3.3 SKIN MODEL SHAPE GENERATION IN THE PREDICTION S TA G E ........................... 74 4.3.4 SKIN MODEL SHAPE GENERATION IN THE OBSERVATION S TAGE ........................ 78 4.3.5 COMPARISON OF THE APPROACHES FOR THE GENERATION OF SKIN MODEL SHAPES 81 4.4 APPLICATIONS AND PERSPECTIVES FOR SKIN MODEL SHAPES IN MECHANICAL ENGINEERING 83 5 A COMPREHENSIVE FRAMEWORK FOR THE COMPUTER-AIDED TOLERANCE ANALYSIS BASED ON SKIN MODEL SHAPES 85 5.1 FRAMEWORK FOR THE TOLERANCE ANALYSIS BASED ON SKIN MODEL S H A P E S ............... 85 5.2 SCALING OF SKIN MODEL SHAPES.................................................................................. 86 5.2.1 RELATED W O R K .............................................................................................. 87 5.2.2 SCALING SEQUENCE BASED ON THE RELATIONSHIP BETWEEN DIFFERENT TOLERANCES 88 5.2.3 DIMENSIONAL T O LE RA N C E S............................................................................ 90 5.2.4 FORM TOLERANCES ........................................................................................ 92 5.2.5 ORIENTATION TOLERANCES............................................................................... 96 5.2.6 LOCATION TOLERANCES .................................................................................. 102 5.2.7 PROFILE AND RUNOUT T OLERANCES ...................................................................... 106 5.2.8 ALTERNATIVE TOLERANCE S P ECIFICATIO N S .......................................................... 107 5.2.9 RESULTS FOR THE EXAMPLE CASE S TU D Y ......................................................... 109 5.3 RELATIVE POSITIONING AND ASSEMBLY SIMULATION OF SKIN MODEL SHAPES ................... 110 5.3.1 RELATED W O R K ................................................................................................. I L L 5.3.2 RELATIVE POSITIONING OF SKIN MODEL S H A P E S ................................................. 112 5.3.3 ASSEMBLY SIMULATION FOR SKIN MODEL S H AP ES .............................................. 119 5.3.4 APPLICATION TO THE EXAMPLE CASE S TU D Y ....................................................... 129 5.4 GAP HULL ESTIMATION FOR SKIN MODEL SHAPES ............................................................. 130 5.4.1 RELATED W O R K ................................................................................................. 130 5.4.2 PROBLEM DESCRIPTION AND GENERAL A P P RO A C H .............................................. 131 5.4.3 EXEMPLARY A PPLICATION .................................................................................. 134 5.5 CONTACT AND MOBILITY SIMULATION FOR GEARS AND ROTATING M ECHANISM ................... 137 5.5.1 RELATED W O R K ................................................................................................. 137 5.5.2 APPROACHES FOR THE CONTACT AND MOBILITY SIMULATION OF SKIN MODEL S H A P E S..............................................................................................................138 5.6 MEASUREMENT OF KEY CHARACTERISTICS AND RESULT VISUALIZATION ............................... 152 5.6.1 APPROACHES FOR THE MEASUREMENT OF KEY C HARACTERISTICS ......................... 152 5.6.2 RESULT VISUALIZATION M E TH O D S .................................................................. 152 5.6.3 APPLICATION TO THE EXAMPLE CASE STUDY FROM SECTION 5 . 1 ......................... 153 6 PROTOTYPE IMPLEMENTATION OF A TOLERANCE ANALYSIS TOOL BASED ON SKIN MODEL SHAPES 157 6.1 GENERAL ARCHITECTURE AND W ORKFLOW ..................................................................... 157 6.2 PART IMPORT M O D U LE .................................................................................................... 158 6.3 TOLERANCE SPECIFICATION AND ASSEMBLY DEFINITION M O D U LE ..................................... 159 6.4 TOLERANCE SIMULATION M ODULE..................................................................................... 160 6.5 RESULT VISUALIZATION AND EXPORT M ODULE ................................................................... 160 6.6 ADDITIONAL FUNCTIONALITIES ........................................................................................ 160 7 APPLICATION AND BENCHMARK OF THE TOLERANCE ANALYSIS APPROACH BASED ON SKIN MODEL SHAPES 163 7.1 TOLERANCE STACK-UPS....................................................................................................163 7.1.1 TOLERANCE STACK-UP OF TWO C U B E S ................................................................163 7.1.2 TOLERANCE STACK-UP OF TWO PLATES AND A C U B E ........................................ 167 7.1.3 TOLERANCE STACK-UP OF FOUR P A R T S ................................................................170 7.1.4 TOLERANCE STACK-UP CONSIDERING DIFFERENT POSITIONING SCHEMES ................ 174 7.1.5 TOLERANCE STACK-UP OF FOUR PARTS CONSIDERING 3-2-1 POSITIONING SCHEMES 175 7.2 PRODUCT ASSEMBLABILITY EVALUATION............................................................................176 7.2.1 PIN-HOLE A SSEM BLY........................................................................................177 7.2.2 TWO-PIN-TWO-HOLE A SSEM B LY ......................................................................179 7.3 FURTHER APPLICATIONS AND ADDITIONAL F UNCTIONALITIES .......................................... 182 7.3.1 FIVE-PIECE A SSE M B LY ..................................................................................... 182 7.3.2 TWO DISCS IN A B O X ........................................................................................ 187 7.3.3 IRREGULAR TOLERANCE STACK ............................................................................ 188 7.4 DISCUSSION OF THE OBTAINED R ESU LTS............................................................................ 190 8 CONCLUSION AND PERSPECTIVES FOR FUTURE RESEARCH 192 APPENDIX 194 BIBLIOGRAPHY 199 PUBLICATIONS BY THE AUTHOR 239
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series2	Fortschritt-Berichte VDI. Reihe 1, Konstruktionstechnik, Maschinenelemente
spellingShingle	Schleich, Benjamin Skin model shapes a new paradigm for the tolerance analysis and the geometrical variations modelling in mechanical engineering Fortschritt-Berichte VDI. Reihe 1, Konstruktionstechnik, Maschinenelemente Konstruktionselement (DE-588)4165100-5 gnd Formabweichung (DE-588)4407746-4 gnd Fertigungstoleranz (DE-588)4196538-3 gnd Formtoleranz (DE-588)4139856-7 gnd Toleranzanalyse (DE-588)4382130-3 gnd Produktentwicklung (DE-588)4139402-1 gnd
subject_GND	(DE-588)4165100-5 (DE-588)4407746-4 (DE-588)4196538-3 (DE-588)4139856-7 (DE-588)4382130-3 (DE-588)4139402-1 (DE-588)4113937-9
title	Skin model shapes a new paradigm for the tolerance analysis and the geometrical variations modelling in mechanical engineering
title_alt	Skin model shapes in mechanical engineering
title_auth	Skin model shapes a new paradigm for the tolerance analysis and the geometrical variations modelling in mechanical engineering
title_exact_search	Skin model shapes a new paradigm for the tolerance analysis and the geometrical variations modelling in mechanical engineering
title_full	Skin model shapes a new paradigm for the tolerance analysis and the geometrical variations modelling in mechanical engineering Dipl.-Wirtsch.-Ing. (Univ.) Benjamin Schleich, Erlangen
title_fullStr	Skin model shapes a new paradigm for the tolerance analysis and the geometrical variations modelling in mechanical engineering Dipl.-Wirtsch.-Ing. (Univ.) Benjamin Schleich, Erlangen
title_full_unstemmed	Skin model shapes a new paradigm for the tolerance analysis and the geometrical variations modelling in mechanical engineering Dipl.-Wirtsch.-Ing. (Univ.) Benjamin Schleich, Erlangen
title_short	Skin model shapes
title_sort	skin model shapes a new paradigm for the tolerance analysis and the geometrical variations modelling in mechanical engineering
title_sub	a new paradigm for the tolerance analysis and the geometrical variations modelling in mechanical engineering
topic	Konstruktionselement (DE-588)4165100-5 gnd Formabweichung (DE-588)4407746-4 gnd Fertigungstoleranz (DE-588)4196538-3 gnd Formtoleranz (DE-588)4139856-7 gnd Toleranzanalyse (DE-588)4382130-3 gnd Produktentwicklung (DE-588)4139402-1 gnd
topic_facet	Konstruktionselement Formabweichung Fertigungstoleranz Formtoleranz Toleranzanalyse Produktentwicklung Hochschulschrift
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029714054&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV001897066
work_keys_str_mv	AT schleichbenjamin skinmodelshapesanewparadigmforthetoleranceanalysisandthegeometricalvariationsmodellinginmechanicalengineering AT schleichbenjamin skinmodelshapesinmechanicalengineering

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