Stephen P. Radzevich

Geometry of Surfaces

A Practical Guide for Mechanical Engineers

• Gebundenes Buch

Produktbeschreibung

Presents an in-depth analysis of geometry of part surfaces and provides the tools for solving complex engineering problems

Geometry of Surfaces: A Practical Guide for Mechanical Engineers is a comprehensive guide to applied geometry of surfaces with focus on practical applications in various areas of mechanical engineering. The book is divided into three parts on Part Surfaces, Geometry of Contact of Part Surfaces and Mapping of the Contacting Part Surfaces.

Geometry of Surfaces: A Practical Guide for Mechanical Engineers combines differential geometry and gearing theory and presents new developments in the elementary theory of enveloping surfaces. Written by a leading expert of the field, this book also provides the reader with the tools for solving complex engineering problems in the field of mechanical engineering.
Presents an in-depth analysis of geometry of part surfaces
Provides tools for solving complex engineering problems in the field of mechanical engineering
Combines differential geometry and gearing theory
Highlights new developments in the elementary theory of enveloping surfaces

Essential reading for researchers and practitioners in mechanical, automotive and aerospace engineering industries; CAD developers; and graduate students in Mechanical Engineering.

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Produktdetails

• Verlag: Wiley & Sons
• 1. Auflage
• Seitenzahl: 264
• Erscheinungstermin: 4. März 2013
• Englisch
• Abmessung: 251mm x 172mm x 20mm
• Gewicht: 558g
• ISBN-13: 9781118520314
• ISBN-10: 1118520319
• Artikelnr.: 36394397

Autorenporträt

Stephen P. Radzevich, Principal Gear Engineer, USA

Inhaltsangabe

About the Author xiii
Preface xv
Acknowledgments xvii
Glossary xix
Notation xxi
Introduction xxv
Part I PART SURFACES 1
1 Geometry of a Part Surface 3
1.1 On the Analytical Description of Ideal Surfaces 3
1.2 On the Difference between Classical Differential Geometry and
Engineering Geometry of Surfaces 6
1.3 On the Analytical Description of Part Surfaces 7
1.4 Boundary Surfaces for an Actual Part Surface 9
1.5 Natural Representation of a Desired Part Surface 11
1.6 Elements of Local Geometry of a Desired Part Surface 19
2 On the Possibility of Classification of Part Surfaces 27
2.1 Sculptured Part Surfaces 27
2.2 Planar Characteristic Images 33
2.3 Circular Diagrams at a Surface Point 42
2.4 One More Useful Characteristic Curve 53
Part II GEOMETRY OF CONTACT OF PART SURFACES 55
3 Early Works in the Field of Contact Geometry 57
3.1 Order of Contact 57
3.2 Contact Geometry of Part Surfaces 59
3.3 Local Relative Orientation of the Contacting Part Surfaces 59
3.4 First-Order Analysis: Common Tangent Plane 64
3.5 Second-Order Analysis 65
3.6 A Characteristic Curve Irk (R ) of Novel Kind 75
4 An Analytical Method Based on Second Fundamental Forms of the Contacting
Part Surfaces 79
5 Indicatrix of Conformity of Two Smooth Regular Surfaces in the First
Order of Tangency 83
5.1 Preliminary Remarks 83
5.2 Indicatrix of Conformity for Two Smooth Regular Part Surfaces in the
First Order of Tangency 87
5.3 Directions of Extremum Degree of Conformity of Two Part Surfaces in
Contact 94
5.4 Asymptotes of the Indicatrix of Conformity CnfR (P1/P2) 97
5.5 Comparison of Capabilities of Indicatrix of Conformity Cnf R(P1/P2) and
of Dupin Indicatrix of the Surface of Relative Curvature Dup (R) 98
5.6 Important Properties of Indicatrix of Conformity Cnf R(P/T ) of Two
Smooth Regular Part Surfaces 99
5.7 The Converse Indicatrix of Conformity of Two Regular Part Surfaces in
the First Order of Tangency 99
6 Plücker Conoid: More Characteristic Curves 101
6.1 Plücker Conoid 101
6.2 On Analytical Description of Local Geometry of a Smooth Regular Part
Surface 105
6.3 Relative Characteristic Curve 112
7 Feasible Kinds of Contact of Two Smooth Regular Part Surfaces in the
First Order of Tangency 117
7.1 On the Possibility of Implementation of the Indicatrix of Conformity
for the Purposes of Identification of the Actual Kind of Contact of Two
Smooth Regular Part Surfaces 117
7.2 Impact of Accuracy of the Computation on the Parameters of the
Indicatrices of Conformity Cnf R(P1/P2) 121
7.3 Classification of Possible Kinds of Contact of Two Smooth Regular Part
Surfaces 122
Part III MAPPING OF THE CONTACTING PART SURFACES 131
8 R-Mapping of the Interacting Part Surfaces 133
8.1 Preliminary Remarks 133
8.2 On the Concept of R-Mapping of the Interacting Part Surfaces 134
8.3 R-mapping of a Part Surface P1 onto Another Part Surface P2 136
8.4 Reconstruction of the Mapped Part Surface 140
8.5 Illustrative Examples of the Calculation of the Design Parameters of
the Mapped Part Surface 141
9 Generation of Enveloping Surfaces: General Consideration 145
9.1 Envelope for Successive Positions of a Moving Planar Curve 145
9.2 Envelope for Successive Positions of a Moving Surface 149
9.3 Kinematic Method for Determining Enveloping Surfaces 154
9.4 Peculiarities of Implementation of the Kinematic Method in Cases of
Multi-parametric Relative Motion of the Surfaces 164
10 Generation of Enveloping Surfaces: Special Cases 167
10.1 Part Surfaces that Allow for Sliding Over Themselves 167
10.2 Reversibly Enveloping Surfaces: Introductory Remarks 169
10.3 Generation of Reversibly Enveloping Surfaces 180
10.4 On the Looseness of Two Olivier Principles 197
Conclusion 203
APPENDICES 205
Appendix A: Elements of Vector Calculus 207
A.1 Fundamental Properties of Vectors 207
A.2 Mathematical Operations over Vectors 207
Appendix B: Elements of Coordinate System Transformations 211
B.1 Coordinate System Transformation 211
B.2 Conversion of the Coordinate System Orientation 222
B.3 Transformation of Surface Fundamental Forms 223
Appendix C: Change of Surface Parameters 225
References 227
Bibliography 229
Index 233

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Part 1. Part Surfaces.- Geometry of a Part Surface.- On a Possibility of Classification of Part Surfaces.- Part 2. On a Possibility of Classification of Part Surfaces.- Early Works in the Field of Contact Geometry of Surfaces.- An Analytical Method based on Second Fundamental Forms of the Contacting Part Surfaces.- Indicatrix of Conformity at Point of Contact of Two Smooth Regular Part Surfaces in the First Order of Tangency.- Plücker Conoid: More Characteristic Curves.- Possible Kinds of Contact of Two Smooth Regular Part Surfaces in the First Order of Tangency.- Part 3. Mapping of Contacting Part Surfaces.- -Mapping of Interacting Part Surfaces.- Generation of Enveloping Surfaces: General Consideration.- Generation of Enveloping Surfaces: Special Cases.- Conclusion.- Appendix A: Elements of Vector Calculus.- Appendix B: Elements of Coordinate Systems Transformations.- Appendix C: Change of Surface Parameters.- Appendix D: Closest Distance of Approach between Two Part Surfaces.

Rezensionen

"The book ends with four appendices on the necessary mathematical background, a glossary, a rich bibliography, and an index. ... it is an invaluable vade mecum for manufacturing engineers." (Eleutherius Symeonidis, zbMATH 1492.53001, 2022)