Read more
Informationen zum Autor Ammar Grous, CEGEP de l'Outaouais, Quebec, Canada. Klappentext Applied Metrology for Manufacturing Engineering, stands out from traditional works due to its educational aspect. Illustrated by tutorials and laboratory models, it is accessible to users of non-specialists in the fields of design and manufacturing. Chapters can be viewed independently of each other. This book focuses on technical geometric and dimensional tolerances as well as mechanical testing and quality control. It also provides references and solved examples to help professionals and teachers to adapt their models to specific cases. It reflects recent developments in ISO and GPS standards and focuses on training that goes hand in hand with the progress of practical work and workshops dealing with measurement and dimensioning. Zusammenfassung * Illustrated by tutorials and laboratory models, it is accessible to users of non-specialists in the fields of design and manufacturing. * Chapters can be viewed independently of each other. * Focuses on technical geometric and dimensional tolerances as well as mechanical testing and quality control. Inhaltsverzeichnis Chapter 1. Fundamentals of Error Analysis and their Uncertainties in Dimensional Metrology Applied to Science and Technology 1 1.1. Introduction to uncertainties in dimensional metrology 1 1.2. Definition of standards 4 1.3. Definition of errors and uncertainties in dimensional metrology 9 1.4. Errors and their impact on the calculation of uncertainties 15 1.5. Applications based on errors in dimensional metrology 35 1.6. Correction of possible measurement errors 42 1.7. Estimation of uncertainties of measurement errors in metrology 48 1.8. Approaches for determining type A and B uncertainties according to the GUM 53 1.9. Principle of uncertainty calculation: types A and B 69 1.10. Summary 82 1.11. Bibliography 83 Chapter 2. Fundamentals of Dimensional and Geometrical Tolerances According to ISO, CSA (Canada), and ANSI (USA) 85 2.1. Introduction to geometrical products specification 85 2.2. Dimensional tolerances and adjustments 89 2.3. International vocabulary of metrology 97 2.4. GPS standard covering ISO/TR14638-1995 103 2.5. Conicity according to ISO 3040-1990 136 2.6. Linear dimensional tolerances 139 2.7. Positioning a group of elements 143 2.8. GPS standards according to the report CR ISO/TR14638 of 1996 145 2.9. Rational dimensioning for a controlled metrology: indices of capability and performance indices statistical process specification 147 2.10. Summary and discussion 159 2.11. Bibliography 161 Chapter 3. Measurement and Controls Using Linear and Angular Standards 163 3.1. Key dimensional metrology standards 163 3.2. Meter, time, and mass 168 3.3. Deformations and mechanical causes of errors 170 3.4. Marble, V-blocks, gauge blocks, and dial gauges 180 3.5. Dial gauge 185 3.6. Example of a laboratory model 199 3.7. Precision height 200 3.8. The universal protractor vernier 205 3.9. Vernier calipers 211 3.10. Micrometer or Palmer 216 3.11. Summary 234 3.12. Bibliography 235 Chapter 4. Surface Control 237 4.1. Control and measurement of angles 237 4.2. Surfaces of revolution 241 4.2. Metric thread (M) measurement on gauge 258 4.4. Controls of cones on machine-tools 261 4.5. Control of flat surfaces 264 4.6. Control of cylindrical surfaces (of revolution) 270 4.7. Control of surfaces of revolution with spherical forms 281 4.8. Control of the relative positions of surfaces 290 4.9. Methods of dimensional measurement 294 4.10. Bibliography 308 Chapter 5. Opto-Mech...
