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Record Nr. |
UNINA9910135018703321 |
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Autore |
Feinberg Alec |
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Titolo |
Thermodynamic degradation science : physics of failure, accelerated testing, fatigue and reliability applications / / Alec Feinberg, Ph.D |
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Pubbl/distr/stampa |
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West Sussex, [England] : , : Wiley, , 2016 |
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©2016 |
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ISBN |
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1-119-27627-6 |
1-119-27624-1 |
1-119-27625-X |
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Descrizione fisica |
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1 online resource (265 p.) |
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Collana |
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Wiley Series in Quality & Reliability Engineering |
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Disciplina |
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Soggetti |
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Heat-engines - Thermodynamics |
Metals - Fatigue |
Metals - Testing |
Thermodynamic equilibrium |
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Lingua di pubblicazione |
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Formato |
Materiale a stampa |
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Livello bibliografico |
Monografia |
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Note generali |
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Description based upon print version of record. |
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Nota di bibliografia |
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Includes bibliographical references and index. |
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Nota di contenuto |
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Title Page; Copyright; Contents; List of Figures; List of Tables ; About the Author ; Preface; Chapter 1 Equilibrium Thermodynamic Degradation Science ; 1.1 Introduction to a New Science; 1.2 Categorizing Physics of Failure Mechanisms; 1.3 Entropy Damage Concept; 1.3.1 The System (Device) and its Environment; 1.3.2 Irreversible Thermodynamic Processes Cause Damage; 1.4 Thermodynamic Work; 1.5 Thermodynamic State Variables and their Characteristics; 1.6 Thermodynamic Second Law in Terms of System Entropy Damage; 1.6.1 Thermodynamic Entropy Damage Axiom; 1.6.2 Entropy and Free Energy |
1.7 Work, Resistance, Generated Entropy, and the Second Law1.8 Thermodynamic Catastrophic and Parametric Failure; 1.8.1 Equilibrium and Non-Equilibrium Aging States in Terms of the Free Energy or Entropy Change; 1.9 Repair Entropy; 1.9.1 Example 1.1: Repair Entropy: Relating Non-Damage Entropy Flow to Entropy Damage; Summary ; References; Chapter 2 Applications of Equilibrium Thermodynamic Degradation to Complex and Simple Systems: Entropy Damage, |
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Vibration, Temperature, Noise Analysis, and Thermodynamic Potentials ; 2.1 Cumulative Entropy Damage Approach in Physics of Failure |
2.1.1 Example 2.1: Minerś Rule Derivation2.1.2 Example 2.2: Minerś Rule Example; 2.1.3 Non-Cyclic Applications of Cumulative Damage; 2.2 Measuring Entropy Damage Processes; 2.3 Intermediate Thermodynamic Aging States and Sampling; 2.4 Measures for System-Level Entropy Damage; 2.4.1 Measuring System Entropy Damage with Temperature; 2.4.2 Example 2.3: Resistor Aging; 2.4.3 Example 2.4: Complex Resistor Bank; 2.4.4 System Entropy Damage with Temperature Observations; 2.4.5 Example 2.5: Temperature Aging of an Operating System |
2.4.6 Comment on High-Temperature Aging for Operating and Non-Operating Systems2.5 Measuring Randomness due to System Entropy Damage with Mesoscopic Noise Analysis in an Operating System; 2.5.1 Example 2.6: Gaussian Noise Vibration Damage; 2.5.2 Example 2.7: System Vibration Damage Observed with Noise Analysis; 2.6 How System Entropy Damage Leads to Random Processes; 2.6.1 Stationary versus Non-Stationary Entropy Process; 2.7 Example 2.8: Human Heart Rate Noise Degradation; 2.8 Entropy Damage Noise Assessment Using Autocorrelation and the Power Spectral Density |
2.8.1 Noise Measurements Rules of Thumb for the PSD and R2.8.2 Literature Review of Traditional Noise Measurement; 2.8.3 Literature Review for Resistor Noise; 2.9 Noise Detection Measurement System; 2.9.1 System Noise Temperature; 2.9.2 Environmental Noise Due to Pollution; 2.9.3 Measuring System Entropy Damage using Failure Rate; 2.10 Entropy Maximize Principle: Combined First and Second Law; 2.10.1 Example 2.9: Thermal Equilibrium; 2.10.2 Example 2.10: Equilibrium with Charge Exchange; 2.10.3 Example 2.11: Diffusion Equilibrium; 2.10.4 Example 2.12: Available Work |
2.11 Thermodynamic Potentials and Energy States |
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