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Table of Contents
Preface; Acknowledgements; Contents; Editors and Contributors; 1 Optimization of Forming Processes for Gelled Propellant Manufacturing; 1 Introduction to the Gelled Propellant Manufacturing; 1.1 Manufacturing of Nitrocellulose-Based Colloidal Propellants; 1.2 Manufacturing Processes Associated with the Rheological Behaviour of Gelled Propellants; 1.2.1 Batch Mixing of Nitrocellulose Gels; 1.2.2 Ram Extrusion of Gelled Propellant Doughs; 2 Process and Material Parameters for Propellant Production Controlling; 2.1 Process Parameters to Control During the Propellant Production.
2.1.1 Process Parameters in Batch Mixing2.1.2 Process Parameters in Ram Extrusion; 2.2 Material Parameters to Control During the Propellant Production; 2.2.1 Rheological Parameters; 2.2.2 Physical Parameters; 3 Self-controlling Measuring Path for Propellant Production; 4 Measuring Devices for Process and Material Parameters; 5 Procedures and Registers for Propellant Production Controlling; 6 Example of Industrial Application of This Production Control Methodology; 7 Conclusions; References; 2 Random Excitation Technique for Measurement of Acoustic Properties; 1 Introduction; 2 Acoustic Waves.
2.1 Plane Waves2.1.1 Waves in Absorptive Stationary Medium; 3 Acoustic Waves; 3.1 Set-up Selection; 3.1.1 Sliding Microphone Probe Experiment (SME); 3.1.2 Fixed Two Microphone Impedance Tube Experiment (FME); 3.1.3 Transfer Matrix Method (TMM); 3.1.4 Comparison; 3.2 Theory; 3.2.1 Spectral Density; 3.2.2 Evaluation of Attenuation Constant; 3.2.3 Normalized Impedance and Reflection Coefficient; 4 Measurement (Microphones and Transducers); 4.1 Sensitivity; 4.2 Frequency Response; 4.3 Dynamic Range; 5 Pre-amplification; 6 Analog to Digital Conversion; 6.1 Flash ADC; 6.2 Sigma-Delta ADC.
6.3 Dual Slope ADC6.4 Successive Approximation Converter; 7 Analysis; 8 Precautions; 8.1 Deviation from Assumptions; 8.2 Environmental Effects; 8.3 Special Anomalies; 8.4 Methods to Enhance Accuracy; References; 3 Optimal Inspection Intervals for Multi-One-Shot Systems; 1 Introduction; 2 Inspection Schedule for Multi One-Shot Systems Under Limited Maintenance Resources; 2.1 Inspection Schedule for Multi One-Shot Systems; 2.2 Inspection Schedule Model of Multi One-Shot Systems; 3 Optimization Method for Inspection Schedule of Multi One-Shot Systems.
3.1 Simulation-Based Optimization Procedure with a Hybrid Genetic Algorithm3.2 Hybrid Genetic Algorithm with Heuristic Method in Phase 1; 3.3 Hybrid Genetic Algorithm with Heuristic Method in Phase 2; 3.4 Heuristic Method in Phase 2; 4 Numerical Examples; 4.1 CASE 1: Different Target Interval Availability; 4.2 CASE 2: Decreasing the Scale Parameters of the Failure Distribution of Type 1 Units; 4.3 CASE 3: Increasing the Failure Thresholds of Type 2 Units; 5 Conclusions; Acknowledgements; References; 4 Industrial System Performance Under Multistate Failures with Standby Mode; 1 Introduction.
2.1.1 Process Parameters in Batch Mixing2.1.2 Process Parameters in Ram Extrusion; 2.2 Material Parameters to Control During the Propellant Production; 2.2.1 Rheological Parameters; 2.2.2 Physical Parameters; 3 Self-controlling Measuring Path for Propellant Production; 4 Measuring Devices for Process and Material Parameters; 5 Procedures and Registers for Propellant Production Controlling; 6 Example of Industrial Application of This Production Control Methodology; 7 Conclusions; References; 2 Random Excitation Technique for Measurement of Acoustic Properties; 1 Introduction; 2 Acoustic Waves.
2.1 Plane Waves2.1.1 Waves in Absorptive Stationary Medium; 3 Acoustic Waves; 3.1 Set-up Selection; 3.1.1 Sliding Microphone Probe Experiment (SME); 3.1.2 Fixed Two Microphone Impedance Tube Experiment (FME); 3.1.3 Transfer Matrix Method (TMM); 3.1.4 Comparison; 3.2 Theory; 3.2.1 Spectral Density; 3.2.2 Evaluation of Attenuation Constant; 3.2.3 Normalized Impedance and Reflection Coefficient; 4 Measurement (Microphones and Transducers); 4.1 Sensitivity; 4.2 Frequency Response; 4.3 Dynamic Range; 5 Pre-amplification; 6 Analog to Digital Conversion; 6.1 Flash ADC; 6.2 Sigma-Delta ADC.
6.3 Dual Slope ADC6.4 Successive Approximation Converter; 7 Analysis; 8 Precautions; 8.1 Deviation from Assumptions; 8.2 Environmental Effects; 8.3 Special Anomalies; 8.4 Methods to Enhance Accuracy; References; 3 Optimal Inspection Intervals for Multi-One-Shot Systems; 1 Introduction; 2 Inspection Schedule for Multi One-Shot Systems Under Limited Maintenance Resources; 2.1 Inspection Schedule for Multi One-Shot Systems; 2.2 Inspection Schedule Model of Multi One-Shot Systems; 3 Optimization Method for Inspection Schedule of Multi One-Shot Systems.
3.1 Simulation-Based Optimization Procedure with a Hybrid Genetic Algorithm3.2 Hybrid Genetic Algorithm with Heuristic Method in Phase 1; 3.3 Hybrid Genetic Algorithm with Heuristic Method in Phase 2; 3.4 Heuristic Method in Phase 2; 4 Numerical Examples; 4.1 CASE 1: Different Target Interval Availability; 4.2 CASE 2: Decreasing the Scale Parameters of the Failure Distribution of Type 1 Units; 4.3 CASE 3: Increasing the Failure Thresholds of Type 2 Units; 5 Conclusions; Acknowledgements; References; 4 Industrial System Performance Under Multistate Failures with Standby Mode; 1 Introduction.