Reliability of High-Power Mechatronic Systems 1
Aerospace and Automotive Applications: Simulation, Modeling and Optimization
- 1st Edition - September 14, 2017
- Latest edition
- Editors: Abdelkhalak El Hami, David Delaux, Henri Grzeskowiak
- Language: English
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 ae… Read more
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.
- Presents a methodological guide that demonstrates the reliability of fractured mechatronic components and devices
- Includes numerical and statistical models to optimize the reliability of the product architecture
- Helps users develop a methodology to characterize critical elements at the earliest stage
Students, teacher-researchers and researchers in mechanics and particularly coupled systems. All university researchers and research students interested in modeling and simulation of dynamic systems and experiments. Universities, schools of engineers, industrialists: railway, naval, production, transport, medical, Green energies Civil and military radars
1. Reliability and Innovation: Issues and Challenges
2. Reliability in the Automotive World
3. Reliability in the World of Aeronautics
4. Reliability in the World of Defense
5. The Objectives of Reliability
6. "Critical" Components
7. Estimated Reliability Prediction
8.Simulation of Degradation Phenomena
in Semiconductor Components in order to
Ensure the Reliability of Integrated Circuits
9. Estimation of Fatigue Damage
of a Control Board Subjected to Random Vibration
10. Study on the Thermomechanical Fatigue
of Electronic Power Modules for Traction Applications in Electric and Hybrid Vehicles (IGBT)
11. Exploration of Thermal Simulation
Aimed at Consolidating the Reliability Approach of Mechatronic Components
- Edition: 1
- Latest edition
- Published: September 14, 2017
- Language: English
AE
Abdelkhalak El Hami
Abdelkhalak El Hami is Professeur des universités at the Institut National des Sciences Appliquées (INSA-Rouen) in France and is in charge of the Normandy Conservatoire National des Arts et Metiers (CNAM) Chair of Mechanics and Head of the department of mechanical engineering of INSA Normandy, as well as several European pedagogical projects. He is an expert in fluid–structure interaction studies, reliability and optimization.
Affiliations and expertise
Institut National des Sciences Appliquees (INSA-Rouen), FranceDD
David Delaux
David Delaux is Reliability Director at Valeo and Reliability Senior Expert. Professor at Rouen University and ENSMA, he is also a national auditor/assessor at COFRAC (ISO 17025). He is the President of the European Reliability Environmental Confederation (CEEES).
Affiliations and expertise
Rouen University and ENSMA, FranceHG
Henri Grzeskowiak
Henri Grzeskowiak is a Technical Expert at Matra BAe Dynamics (missile) and MBDA (missile). He is also Auditor COFRAC, Head of Dept Environmental Engineering (Matra & MBDA) as well as former President of the Standardization Committee for Mechanical & Climatic Environment (DGA) and of the association ASTE (France) and CEEES (Europe).
Affiliations and expertise
vMatra BAe Dynamics (missile) and MBDA (missile), FranceRead Reliability of High-Power Mechatronic Systems 1 on ScienceDirect