Coordinate Metrology : Accuracy of Systems and Measurements /: Accuracy of Systems and Measurements. (2016)
- Record Type:
- Book
- Title:
- Coordinate Metrology : Accuracy of Systems and Measurements /: Accuracy of Systems and Measurements. (2016)
- Main Title:
- Coordinate Metrology : Accuracy of Systems and Measurements
- Further Information:
- Note: By Jerzy A. Sładek.
- Authors:
- Sładek, Jerzy A
- Contents:
- 1 Introduction; Abstract; References; 2 Measurement Uncertainty and Requirements of Production System. Selected Issues of Measurement Uncertainty Theory; Abstract; 2.1 Coordinate Measurement During Production Process; 2.2 Measurement Uncertainty; 2.3 Vector Concept of Describing Coordinate Measurement Accuracy: Measuring Point Reproducibility Error; 2.4 Coordinate Measurement Uncertainty and Regulatory Requirements; References; 3 Classic (Nonsimulative) Methods of Measurement Accuracy Assessment; Abstract; 3.1 Method Using the Calibrated Object or the Standard. 3.2 Noncalibrated Object Method (Multiposition Method)3.2.1 Measurement of an Object Characteristic; 3.2.2 Measurements of Length Standards; 3.2.3 Measurement of Diameter Standards; 3.2.4 Calculation of the Value of Measured Object Characteristic; 3.2.5 Calculation of Measurement Uncertainty; 3.2.6 Calculation of the Uncertainty Component urep; 3.2.7 Calculation of Uncertainty Component ugeo; 3.2.8 Calculation of Uncertainty Component ucorrL; 3.2.9 Calculation of Uncertainty Component of Length Change Derived from Thermal Influences. 3.3 Monte Carlo Method for Uncertainty Determination in Multiposition and Substitution Method3.4 Determination of Uncertainty of Freeform Profile Measurement; 3.5 Measurement Uncertainty Estimation for Calibrations Based on Error Source Identification: Error Budget; 3.5.1 Uncertainty Budget for the Calibration Procedure of the Plate Standard (Hole Plate) Calibrated on PMM12106 Leitz1 Introduction; Abstract; References; 2 Measurement Uncertainty and Requirements of Production System. Selected Issues of Measurement Uncertainty Theory; Abstract; 2.1 Coordinate Measurement During Production Process; 2.2 Measurement Uncertainty; 2.3 Vector Concept of Describing Coordinate Measurement Accuracy: Measuring Point Reproducibility Error; 2.4 Coordinate Measurement Uncertainty and Regulatory Requirements; References; 3 Classic (Nonsimulative) Methods of Measurement Accuracy Assessment; Abstract; 3.1 Method Using the Calibrated Object or the Standard. 3.2 Noncalibrated Object Method (Multiposition Method)3.2.1 Measurement of an Object Characteristic; 3.2.2 Measurements of Length Standards; 3.2.3 Measurement of Diameter Standards; 3.2.4 Calculation of the Value of Measured Object Characteristic; 3.2.5 Calculation of Measurement Uncertainty; 3.2.6 Calculation of the Uncertainty Component urep; 3.2.7 Calculation of Uncertainty Component ugeo; 3.2.8 Calculation of Uncertainty Component ucorrL; 3.2.9 Calculation of Uncertainty Component of Length Change Derived from Thermal Influences. 3.3 Monte Carlo Method for Uncertainty Determination in Multiposition and Substitution Method3.4 Determination of Uncertainty of Freeform Profile Measurement; 3.5 Measurement Uncertainty Estimation for Calibrations Based on Error Source Identification: Error Budget; 3.5.1 Uncertainty Budget for the Calibration Procedure of the Plate Standard (Hole Plate) Calibrated on PMM12106 Leitz Machine; 3.5.2 Thermodynamic Model; 3.5.3 Description of the Hole Plate Calibration Procedure; 3.6 Methods Based on Relations Resulting from the Model of Maximum Permissible Errors of Coordinate Measuring System. 3.7 Analytical Method of Measurement Uncertainty Determination3.7.1 Geometric Error Model; 3.7.2 Measurement Models; 3.7.3 Measurement Uncertainty as a Complex Uncertainty; 3.7.4 Estimation of Maximum Value for the Geometric Error Difference; 3.7.5 Software; 3.7.6 Particular Stages in the Operating Software; References; 4 Analysis of the Accuracy of Coordinate Measuring Systems; Abstract; 4.1 Sources and Causes of Coordinate Measuring Machine Errors; 4.2 Identification and Software Correction of Measuring Machine Errors. 4.2.1 Determination of Geometric Errors of the Measuring Machine Using the Laser Interferometer4.2.2 PTB Method Using Plate Standard for Geometric Errors of Coordinate Measuring Machine Identification; 4.2.3 Identification of Geometric Errors Using Laser Tracker Systems and Multilateration Method; 4.3 Error Sources of Point Coordinates Contact Acquisition System -- Probe Head Error Function; 4.3.1 Analysis of Error Sources and Causes: Probe Head Error Function (PEF); 4.3.2 Contact Probe Head Error Tests; 4.4 Matrix Method (MM) of CMM Accuracy Identification; 4.4.1 Idea of the MM Method. … (more)
- Publisher Details:
- Berlin, Heidelberg : Springer Berlin Heidelberg Imprint Springer
- Publication Date:
- 2016
- Extent:
- 1 online resource (472 pages)
- Subjects:
- 620
Physical measurements
Engineering
Computational intelligence
Manufacturing industries
Machinery
Tools
Metrology
Measurement
Computational intelligence
Engineering
Machinery
Manufacturing industries
Measurement
Metrology
Physical measurements
Tools
Engineering
Manufacturing, Machines, Tools
Measurement Science and Instrumentation
Computational Intelligence
Electronic books - Languages:
- English
- ISBNs:
- 9783662484654
3662484633
9783662484630 - Related ISBNs:
- 366248465X
- Notes:
- Note: Includes bibliographical references at the end of each chapters.
Note: Print version record.
Note: Online resource; title from PDF title page (ebrary, viewed January 26, 2016). - Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
- Access Usage:
- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
- View Content:
- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.401254
- Ingest File:
- 02_443.xml