This book presents the latest advances and emerging trends in research and industrial applications in non-destructive testing, manufacturing and process safety and diagnostics and materials science. With technological advances, the modern world is on the verge of a new industrial revolution, being in the stage of digital transformation, when innovations from different industries interpenetrate and complement each other. The School of Non-Destructive Testing, Tomsk Polytechnic University, Russia, promotes scientific research and industrial application of non-destructive testing and materials science technologies and related tests, as well as methods, to ensure safe manufacturing processes.
Today, research and technology advancement is driven by innovations, and there is a need for publications to stimulate the formation and continuous training of specialists in non-destructive testing, materials science and safety. This book can be used as a complementary technical document to upgrade the skills of specialists in non-destructive testing, materials science and safety, and as a primary resource for training managers and decision-makers in various industries.
Innovations in the fields of non-destructive testing, production and process safety, diagnostics and materials science and books that highlight the best and instructive are central to our technological world.
I am pleased to see this comprehensive book taking shape and advancing this field to the next generation of scientists seeking for new research opportunities.
Author(s): Elena Lysenko, Alexander Rogachev, Oldřich Starý
Series: Studies in Systems, Decision and Control, 433
Publisher: Springer
Year: 2022
Language: English
Pages: 256
City: Cham
Preface
Contents
Innovation in Non-destructive Testing
Investigation of the Impact of the Size Effect of the Viscosity of Polar Liquids on Their Penetrating Ability
1 Introduction
2 Simulation of the Liquid Flow in Slit Capillaries with Sizes Less Than 1 µm
2.1 Result
3 Conclusions
References
X-ray Inspection Systems with Sandwich Radiation Detectors: A Survey
1 Introduction
2 Material Recognition by the Dual Energy Method in a Security Inspection System with Sandwich Detectors
3 Security Inspection Systems with X-ray Sandwich Detectors
4 Conclusion
References
Control Method for Calibration Interval Adjustment of Speed Meters Based on the Statistical Analysis of Previous Calibrations Data
1 Introduction
2 Research Method
3 Description of the Installation
4 Results and Considerations
5 Conclusion
References
Innovations in the Field of Production and Process Safety
Priorities for Improving Safety of Housing Management Services
1 Introduction
2 Research Method
3 Conclusions
References
Potentiometric Sensor for the Ion Speciation in the Industrial Waters
1 Introduction
2 Materials and Methods
2.1 Reagents
2.2 Sensor Design
2.3 Control of the Sensor Workability
3 Results and Discussion
3.1 Sensor Calibration
3.2 Effect of Variables
3.3 Analytical Applications
4 Conclusion
References
Testing of Liquid Media In-Processes by Conductometry
1 Introduction
2 Building Calibration Dependencies
3 Practical Application
4 Conclusion
References
Improving the Surface of Titanium Alloys with Wave Cutters
1 Introduction
2 Research Method
3 Results and Considerations
4 Conclusion
References
Solid State Damper Based on Foam Aluminum to Reduce Vibration Activity of Electromechanical Devices
1 Introduction
2 Proposed Technical Solution
3 Mathematical Description
4 Conclusion
References
The Development of a Source for Impulse Impact on Coal Bed
1 Introduction
2 Hydropulse Source for Impact on Coal Bed
3 Mathematical Model of Valve Opening Dynamics
4 Mathematical Model of the Process of Filling the Implosion Chamber
5 Conclusion
References
Vermiculate Concentrate Pre-crushing for Firing in Electric Furnaces
1 Introduction
2 Additional Narrowband Fractionation
3 Grinding of Large Particles of KVK-4 Concentrate
4 The Calculation of Parameters and Values of the Chopping Unit Operating Process
5 Results and Considerations
6 Conclusion
References
Application of the System for Electrical Equipment Diagnostics and Its Analysis
1 Introduction
2 Research Method
3 Description of the Installation
4 Results and Considerations
5 Conclusion
References
Indoor Greening for Volatile Organic Compounds Reduction
1 Introduction
2 Research Method
2.1 Methods Description
2.2 Model Description
2.3 Computational Relations
3 Results and Considerations
3.1 Simulation Results
3.2 Shock Ventilation
4 Discussion
5 Conclusion
References
Analysis of Factors Affecting the Performance of the Business Process Based on Statistical Analysis
1 Introduction
2 Research Method
3 Description of the Installation
3.1 Statistical Analysis of the Well Construction Process by the Parameter “production Time”
3.2 Statistical Analysis of Non-Production Time During Well Construction
3.3 Statistical Analysis of the Drilling Rate During Well Construction
4 Results and Considerations
5 Conclusion
References
Numerical Solution of the Crown Forest Fires Spread Taking into Account Fire Barriers and Breaks
1 Introduction
2 Physical and Mathematical Formulation of the Problem
3 The Results of Calculation and Their Analysis
4 Conclusion
References
Innovations in Technical Diagnostics and Materials Science
Modeling of Microcomposition Structure of Crystals
1 Introduction
2 Crystal Growth from a Single Crystallization Center
3 Growth of Crystals from Many Centers of Crystallization
4 Details of MK Structure
5 Model Description of Block Structures
6 Conclusion
References
Study of Fire-Retardance Effectiveness of Wood Treated with Fire Retardants
1 Introduction
2 Research Method
3 Results and Considerations
4 Conclusion
References
Determination of Correlation Between Photoelectric Properties and Structural Features of Nanocomposite Photoelectrode ZnO:SnO2 by Impedance Spectroscopy
1 Introduction
2 Research Method
3 Description of the Installation
4 Results and Considerations
5 Conclusion
References
Curie Temperature Control of Magnetic Materials Using Thermogravimetric Measurements in Magnetic Field
1 Introduction
2 Research Method
3 Results and Considerations
4 Conclusion
References
Accumulation of Volume Electric Charge in Ferrites Under Electron Irradiation
1 Introduction
2 Research Method
3 Results and Considerations
3.1 Phenomenological Analysis of Charge Accumulation in Dielectric Materials Under Electron Irradiation
3.2 Method for Determining the Value of the Accumulated Volume Charge in Materials Under Electron Irradiation
3.3 Radiation Conductivity of Ferrite Ceramics
3.4 Results of Calculations and Experimental Determination of Electrification Characteristics
4 Conclusion
References
Control of the Object Temperature and Beam Parameters Under Combined Exposure to High Temperatures and High-Energy Charged Particle Fluxes
1 Introduction
2 Research Method
3 Results and Considerations
3.1 Temperature Distribution in the Irradiated Bulk Material
3.2 Dosimetry of High Energy Electron Beam Under Radiation Thermal Conditions
3.3 The Capabilities of the ILU-6 Accelerator in Relation to the Study and Implementation of Radiation Thermal Processes.
4 Conclusion
References
Practical Thermometry of Materials Irradiated by Powerful Beams of Accelerated Electrons
1 Introduction
2 Research Method
3 Results and Considerations
3.1 Measuring Temperature of Irradiated Objects with a Thermocouple Sensor
3.2 Measuring the Thermocouple EMF
4 Conclusion
References
Acoustic-Electrical Testing of Changes in the Stress–Strain State on the Example of Rock Samples
1 Introduction
2 Materials and Methods
3 Theoretical and Experimental Research
4 Conclusions
References
