Metrology in Industry : The Key for Quality

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Author(s):	French College of Metrology (Corporate) French College of Metrology Staff (Corporate)
ISBN No.:	9781905209514
Pages:	270
Year:	200603
Format:	Trade Cloth (Hard Cover)
Price:	$ 245.57
Dispatch delay:	Dispatched between 7 to 15 days
Status:	Available

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Preface 15 Foreword 17 Chapter 1. Analysis of the Metrological Requirements Neededto Ensure Quality 19 Jean-Yves ARRIAT and Klaus-Dieter SCHITTHELM 1.1. Introduction 19 1.2. Definition of the objectives 21 1.3. Choice of the method of measurement 22 1.

3.1. Accounting for the selection of the method 22 1.3.2. Defining the method and the principle to implement 23 1.4. Choice of the means of measurement 24 1.

4.1. Introduction 24 1.4.2. Analysis of what is already available 25 1.4.3.

Assessment and acquisition of material 26 1.4.4. Technical criteria 27 1.4.5. Economic criteria 30 1.4.

6. Grid of the analysis of the choice 31 1.4.7. Technical assistance for users of measuring instruments33 1.5. The traceability of the measurements 36 1.5.

1. The necessity of traceability of the measurements 36 1.5.2. Calibration requirements 38 1.5.3. The selection of standards 39 1.

6. Conclusion 42 Chapter 2. Organization of Metrology: Industrial, Scientific,Legal 43 Luc ERARD, Jean-François MAGANA, Roberto PERISSI, PatrickREPOSEUR and Jean-Michel VIRIEUX 2.1. A metrological organization: why? 43 2.2. Metrology: how? 45 2.3.

Scientific and technical metrology 47 2.3.1. The BIPM 48 2.3.2. Results of the international activities 50 2.3.

3. Regional organizations 51 2.3.4. Organization at the national level 59 2.4. Legal metrology 67 2.4.

1. Scope of legal metrology 67 2.4.2. The International Organization of Legal Metrology (OIML)68 2.4.3. The European level 71 2.

4.4. At national level 73 Chapter 3. Mastering Measurement Processes Approach to theSetting up of a Metrology Function 79 Marc PRIEL and Patrick REPOSEUR 3.1. What to do at the beginning? 79 3.2. Goals and role of the measurement management system -metrological function 80 3.

3. The measurement processes 86 3.3.1. Conception and development of a new measurement process86 3.3.2. Exploitation of a valid process 88 3.

3.3. Continuous improvement of measurement processes 88 3.4. Management of the measuring equipment (metrologicalconfirmation) 89 3.4.1. Analysis of the requirement and selection of themeasuring equipments 91 3.

4.2. Receiving the measuring equipment and putting it intoservice 93 3.4.3. Calibration and verification operations 97 3.4.4.

Fitness for use of measuring equipment 100 3.5. Setting up a metrological structure within the firm 102 3.5.1. Analysis of the metrological requirements and setting upstandards 102 3.5.2.

Traceability of the measuring instrument(s) to thefirm''s reference standards 104 3.5.3. Traceability of the firm''s reference standards tothe SI 104 3.6. Suggested approach for setting up a metrology function105 3.7. Bibliography 106 Chapter 4.

Handling of a Bank of Measuring Instruments109 Jean-Yves ARRIAT 4.1. Acquaintance with the bank 110 4.1.1. Inventory 110 4.1.2.

Identification 110 4.2. Metrological policy of the firm 113 4.2.1. Objective and commitment of the firm''s management113 4.2.2.

Plan of actions to launch 113 4.2.3. Awareness, training and vocabulary 113 4.2.4. Selection of the material to be followed periodically114 4.3.

Drafting of the documents 115 4.3.1. Codification of the documents 115 4.3.2. Work instructions 116 4.3.

3. Result-recording documents 117 4.3.4. Other documents 118 4.4. Physical handling of the measuring instruments 119 4.4.

1. Receipt 119 4.4.2. Transfer 120 4.4.3. Storing and environment 121 4.

4.4. Maintenance 122 4.5. Follow-up of the measuring instruments over time 123 4.5.1. Periodicity of the follow-up 123 4.

5.2. Campaign of recall 124 4.5.3. Follow-up of the results 125 4.6. Software for the handling of the means of measurements125 Chapter 5.

Traceability to National Standards 127 Luc ERARD and Patrick REPOSEUR 5.1. Introduction 127 5.2. Definitions 127 5.2.1. Traceability 127 5.

2.2. Calibration 128 5.2.3. Verification 129 5.3. Traceability chains 129 5.

4. Traceability 131 5.5. Calibration 132 5.5.1. Calibration in an accredited laboratory 132 5.5.

2. Calibration in a non-accredited laboratory 132 5.6. Verification 133 5.6.1. Verification in an accredited laboratory and in itsaccreditation scope 133 5.6.

2. Verification in a non-accredited laboratory or out of theaccreditation scope 133 5.7. Use of calibration and verification results 133 5.7.1. Use of the results of a calibration 134 5.7.

2. Use of the results of a verification 134 5.8. Particular cases 135 5.8.1. "Self-calibrating" or"self-gauging" measuring instruments 135 5.8.

2. Complex instruments in which components/equipments andsoftware are narrowly combined and large measurement ranges arecovered for complex quantities 136 5.9. Metrology in chemistry and physical methods of chemicalanalysis 136 5.9.1. Traceabilty in metrology in chemistry 137 5.9.

2. Influence of the principle of the method 139 5.9.3. "Documentary" traceability 141 5.9.4. Control of the reference materials 143 5.

9.5. Conclusion 145 5.10. Assessment of traceability 145 5.11. Bibliography 146 Chapter 6. Calibration Intervals and Methods for Monitoringthe Measurement Processes 149 Patrizia TAVELLA and Marc PRIEL 6.

1. Normative requirements 149 6.2. Methods for monitoring the instruments in use -general criteria 150 6.2.1. First method: metrological redundancies 150 6.2.

2. Second method: checking the coherence of the results151 6.2.3. Third method: "monitoring standards" andstatistical supervision of the measurement processes 152 6.3. The determination of the calibration intervals 158 6.4.

Bibliography 161 Chapter 7. Measurements and Uncertainties 163 Marc PRIEL 7.1. Introduction 163 7.2. Measurement of physical quantity 164 7.3. Analysis of the measurement process 166 7.

3.1. The cause and effect diagram method 166 7.3.2. Using the list published in the GUM (section 3.3.2)167 7.

3.3. Errors 168 7.3.4. Cutting down the errors 169 7.4. Modeling of the measurement process 172 7.

4.1. Measurement procedure and model of the measurementprocess 172 7.4.2. An essential stage for the assessment of uncertainty:modeling the measurement 173 7.5. Assessment of the uncertainty of the input quantities174 7.

5.1. Type A methods 175 7.5.2. Type B methods 176 7.5.3.

Comparing the Type A and Type B methods 179 7.6. Calculating the combined uncertainty on the result 180 7.6.1. Situation when all the input quantities are independent180 7.6.2.

Situation when the input quantities are dependent 181 7.7. Use of the performances of the method (repeatability andfreedom of bias) to assess the uncertainty of the measurementresult 183 7.7.1. Intra- or interlaboratory approaches 184 7.7.2.

Intra-laboratory approach 185 7.7.3. Interlaboratory approach 186 7.7.4. Data processing for intra- and interlaboratory approaches187 7.8.

Reporting of the measurement result 189 7.9. Example 190 7.10. Bibliography 193 Chapter 8.The Environment of Measuring 195 Jean-Yves ARRIAT and Marc PRIEL 8.1. The premises 196 8.

1.1. Ambient temperature 197 8.1.2. Relative humidity 198 8.1.3.

Handling of the air conditioning systems 199 8.1.4. Power network 199 8.1.5. Radioelectric disturbances 199 8.1.

6. Measurements on-site 200 8.2. The personnel 200 8.2.1. The connection of metrology function 200 8.2.

2. Staff involved in the metrology function 201 8.2.3. The qualification of the personnel 202 8.3. The documentation 202 8.3.

1. Filing of the documents 202 8.3.2. Management of the documents 204 8.4. Bibliography 205 8.5.

Appendix 206 Chapter 9. About Measuring 209 Claude KOCH 9.1. Preliminary information 209 9.1.1. Physical quantity 209 9.1.

2. The object to be measured 210 9.1.3. Field of measurement 210 9.1.4. Four types of uses of measuring instruments 211 9.

1.5. Influencing quantities 212 9.2. Choice of a measuring principle 213 9.2.1. Differential measurement 214 9.

2.2. Direct measurement 214 9.2.3. Indirect measurement 214 9.3. Practicing in metrology 215 9.

3.1. Implementing the instruments 216 9.3.2. Precautions before measuring 216 9.3.3.

Measurements 216 9.3.4. Variations and their sign 217 9.3.5. The time factor 218 9.4.

Expression of the results 218 9.4.1. Graphs 220 9.4.2. Histograms 220 9.5.

What qualities does a metrologist require? 221 9.5.1. Be inquisitive 222 9.5.2. Be tidy and methodical 222 9.5.

3. Be open to doubt 222 9.5.4. Be observant 222 9.5.5. Be honest 223 Chapter 10.

Organization of Metrology at Solvay Research andTechnology 225 José MONTES 10.1. Presentation of the company 225 10.2. Organization of the metrology sector 226 10.2.1. Creation 226 10.

2.2. Missions 226 10.2.3. Organization 226 10.2.4.

Geographic localization of the.

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