‏918.00 ₪

Technology and Practical Use of Strain Gages With Particular Consideration of Stress Analysis Using

‏918.00 ₪
ISBN13
9783433031384
יצא לאור ב
Berlin
זמן אספקה
21 ימי עסקים
עמודים
512
פורמט
Hardback
תאריך יציאה לאור
6 בספט׳ 2017
Strain gages are used in all areas of engineering, and in large quantities. This book is a comprehensive basic compendium about the application of strain gages. It serves to explain the use of strain gages as an introduction, instruction for use and reference work for all fields and involved parties.
This book is a profound compendium on strain gages and their application in materials science and all fields of engineering. It covers both the theoretical and practical aspects of strength and stress analysis using the technique of strain gages. A brief historical review about strain gage inventions is looking at the "who, when and how". The comprehensive bibliography leads to additional background information. Particular consideration is given to the stress analysis in order to verify the mechanical properties and capacity of components with focus on stability and serviceability, optimization, and safety checks, as well as in order to foresee inspection and monitoring. The practice-oriented descriptions of the principles of the measurement, installation and experimental set-ups derives from the author`s own experiences in the field. Particular emphasis is laid on the correct planning and assessment of measurements, and on the interpretation of the results. Step-by-step guidance is given for many application examples, and comments help to avoid typical mistakes. The book is an indispensable reference work for experts who need to analyze structures and have to plan measurements which lead to reliable results. The book is instructive for practitioners who must install reliable measurement circuits and judge the results. The book is also recommended for beginners to get familiar with the problems and to learn about the possibilities and the limits of the strain gage technique.
מידע נוסף
עמודים 512
פורמט Hardback
ISBN10 343303138X
יצא לאור ב Berlin
תאריך יציאה לאור 6 בספט׳ 2017
תוכן עניינים 1 Historical Review 2 Fundamentals of strain gage technology 2.1 Measurement principle and structure 2.2 Sensitivity 2.3 Transverse sensitivity 2.4 Temperature effect 2.5 Mechanics of the strain gage 2.6 Influence of pressure 2.7 Dynamic behavior 2.8 Heat dissipation 2.9 Measuring at elevated temperatures 2.10 Stress gages 3 Installation of strain gages 3.1 Preparatory work 3.2 Methods of fastening 3.3 Remarks on some measurement object materials (Glas, enamel, glaced porcelain, Concrete, Wood, Plastics) 3.4 Measurement point protection 3.5 Quality tests of the strain gage installation 4 The Wheatstone bridge circuit 4.1 Circuit principle 4.2 Basic equation of the bridge circuit 4.3 Temperature compensation 4.4 Limit of the bridge signal resolution 4.5 Examples of some elementary bridge circuits 5 Adjustment and compensation circuits 5.1 General 5.2 Compensation of zero shift with temperature change and zero adjustment 5.3 Compensation of temperature effects on the sensitivity and linearization measures 5.4 Adjustment of the characteristic value 5.5 Creep compensation 5.6 Full bridge circuits connected in parallel 6 Cable between strain gage bridge circuit and measuring instrument 6.1 Basics 6.2 Ohmic resistance of the cable 6.3 Influence of cable capacitance 6.4 Full-bridge connection in four-wire technology 6.5 Six-wire circuit 6.6 Dual channel principle 6.7 Connection of half and quarter bridges 6.8 Protection against disturbing influences 7 Signal processing 7.1 Introductory viewing 7.2 Analog instrumentation amplifier 7.3 Digital amplifier concepts 7.4 Compensation method 7.5 Multi-point Measurement 8 Calibration devices for measurements with strain gages 8.1 Introduction 8.2 Measurement chain 8.3 Characteristic and sensitivity 8.4 Calibration of the entire measuring chain as a measuring device 8.5 Compensators 8.6 Transducers 8.7 Calibration measures 8.8 Calibration of measuring arrangements with self-installed strain gages 9 Determination of mechanical stresses from strains measured with strain gages 9.1 Introduction 9.2 Terms of stress and strain 9.3 Elastic deformation and stress of a tensile rod under uniaxial tensile loading 9.4 The biaxial stress state 9.5 Mohr?s Circle 9.6 Deformation circle 9.7 Types of rosettes and grid notation 9.8 Evaluation formulas for 0 Degrees/45 Degrees/90 Degrees strain-gage rosettes 9.9 Evaluation formulas for 0 Degrees/60 Degrees/120 Degrees strain-gage rosettes 10 Application examples of elastic deformation 10.1 Initial considerations 10.2 Principal directions are known 10.3 Stress analysis for unknown principal directions 10.4 Simultaneous measurement of multiple load components 10.5 Diaphragm rosettes 11 Determination of thermal stresses 11.1 Emergence of thermal stresses 11.2 Sensing the prevented thermal expansion at identical temperatures at the compensation gage and the active strain gage 11.3 Determination of the restricted thermal expansion by computational correction of the measured values with previously measured thermal outputs on dummies 11.4 Determination of the restricted thermal expansion by mathematical correction with the thermal outputs determined at the original measurement object 11.5 The ?reversible? strain gage 11.6 Separation of the mechanical strain from the thermal strain 11.7 Compensated half-bridge strain gage with compensating resistor 12 Strain gages as a means for experimental determination of residual stresses 12.1 Preliminary observation 12.2 Cutting down method 12.3 Layer removal method 12.4 Ring-core method 12.5 Hole-drilling method 13 Stress analysis using strain gages in the elasto-plastic deformation range 13.1 Introduction 13.2 Equivalent state with elastic deformation 13.3 Elasto-plastic deformation 13.4 Stress analysis 13.5 Practical Example of application 13.6 Tensorial representation of the elasto-plastic deformation 14 Strength theories 14.1 Preview 14.2 Concept of effective stress 14.3 Experimental results 14.4 Maximum stress theory 14.5 Maximum shear theory 14.6 Extended shear theory 14.7 Plastic potential theory 14.8 Distortion energy theory (shape changing theory) 14.9 Octahedral plane shear stress theory References Subject Index
זמן אספקה 21 ימי עסקים