Reliability Of High Power Mechatronics Systems 1 1st edition by Abdelkhalak El Hami 0081024223 9780081024225

Reliability Of High Power Mechatronics Systems 1 1st edition by Abdelkhalak El Hami – Ebook PDF Instant Download/DeliveryISBN:  0081024223 9780081024225 

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ISBN-10 :  0081024223 

ISBN-13 :  9780081024225

Author : Abdelkhalak El Hami 

This first volume of a set dedicated to the reliability of high-power mechatronic systems focuses specifically on simulation, modeling and optimization in automotive and aerospace applications.
In the search to improve industrial competitiveness, the development of methods and tools for the design of products is especially pertinent in the context of cost reduction.
This book seeks to propose new methods that simultaneously allow for a quicker design of future mechatronic devices in the automotive and aerospace industries while guaranteeing their increased reliability.
The reliability of these critical elements is further validated digitally through new multi-physical and probabilistic models that could ultimately lead to new design standards and reliable forecasting.

Reliability Of High Power Mechatronics Systems 1 1st Table of contents:

1: Reliability and Innovation: Issues and Challenges
Abstract
1.1 Introduction
1.2 Innovation: spearheading competitiveness
1.3 Reliability: a major issue
1.4 Reliability in the innovation process
1.5 Conclusion
2: Reliability in the Automotive World
Abstract
2.1 Introduction: a history of reliability in the automotive world
2.2 The challenges of automotive reliability: complexity of systems and organizations
2.3 The economic stakes in automobile reliability
2.4 An analysis of reliability through the analysis of warranty
2.5 Conclusion: the future of reliability in the automotive world
3: Reliability in the World of Aeronautics
Abstract
3.1 Introduction
3.2 Safety and reliability
3.3 Maintainability/availability
3.4 Tomorrow’s challenges
3.5 Conclusion
4: Reliability in the World of Defense
Abstract
4.1 Introduction
4.2 Operational dependability in the world of defense
4.3 History of reliability in the world of defense
4.4 Reliability in the field of defense in the US today
4.5 Importance of taking into account influential environments in the product life profile
4.6 Websites dedicated to the dissemination of good reliability practices in the United States
4.7 French websites dedicated to the dissemination of good practices in the field of reliability in France today
4.8 Reminder of a few real-life examples in the world of defense
4.9 Conclusion
5: The Objectives of Reliability
Abstract
5.1 Introduction and objectives
5.2 Genesis and problem of reliability
5.3 Concepts and notions of reliability
5.4 Components and system
5.5 Objectives of reliability
5.6 Adequacy of specifications
5.7 Methodological approach
5.8 Conclusion
6: “Critical” Components
Abstract
6.1 Introduction and objectives
6.2 Problem of reliability
6.3 Estimate for the lifetime of a capacitor
6.4 Conclusion
7: Estimated Reliability Prediction
Abstract
7.1 Introduction
7.2 Reliability prediction for four critical components
7.3 Conclusion
8: Simulation of Degradation Phenomena in Semiconductor Components in order to Ensure the Reliability of Integrated Circuits
Abstract
8.1 Introduction
8.2 Mechanisms of degradation in active semiconductor components
8.3 Study on the degradation of a ring oscillator
8.4 Conclusion
9: Estimation of Fatigue Damage of a Control Board Subjected to Random Vibration
Abstract
9.1 Introduction
9.2 Description of the methodology
9.3 Finite element modeling
9.4 Spectral analysis of random vibrations
9.5 Application of a stationary Gaussian random load
9.6 Estimated fatigue damage
9.7 Conclusion
10: Study on the Thermomechanical Fatigue of Electronic Power Modules for Traction Applications in Electric and Hybrid Vehicles (IGBT)
Abstract
10.1 Introduction
10.2 Presentation of the power module (IGBT)
10.3 Different modes of failure for power modules under the effect of thermal cycling
10.4 The physical phenomena involved
10.5 Modeling of physical phenomena (simulation through the finite element method)
10.6 Digital models of IGBT power demonstrator failure
10.7 Conclusion
11: Exploration of Thermal Simulation Aimed at Consolidating the Reliability Approach of Mechatronic Components
Abstract
11.1 Introduction
11.2 Modeling, input data and boundary conditions
11.3 Operation results of the digital model
11.4 Digital tool: EleXTherm

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Reliability,High Power,Mechatronics Systems,Abdelkhalak El Hami