Handbook of Materials Failure Analysis: With Case Studies from the Electronics Industries examines the reasons materials fail in certain situations, including material defects and mechanical failure as a result of various causes. The book begins with a general overview of materials failure analysis and its importance. It then proceeds to discussions on the types of failure analysis, specific tools and techniques, and an analysis of materials failure from various causes. As failure can occur for several reasons, including materials defects-related failure, materials design-related failure, or corrosion-related failures, the topics covered in this comprehensive source are an important tool for practitioners.
- Provides the most up-to-date and balanced coverage of failure analysis, combining foundational knowledge and current research on the latest developments and innovations in the field
- Offers an ideal accompaniment for those interested in materials forensic investigation, failure of materials, static failure analysis, dynamic failure analysis, and fatigue life prediction
- Presents compelling new case studies from key industries to demonstrate concepts
Part 1: Electronics Industries
1. Failures of Electronic Devices: Solder Joints Failure Modes, Causes and Detection Method
2. Electron-beam Radiation Damage and the Technical Solutions for Materials Failure Analysis of Electron-beam Sensitive Materials in Modern Semiconductor Industry
3. Failure of intermetallic solder ball due to stress shielding and amplification effects
4. Assessment of the indoor corrosion in consumer electronics in subtropical climates.
5. Pb-free Solder
Microstructural, Material Reliability and Failure Relationships
6. The Role of Contamination in Failures of Electronics
7. Reliability analysis of vibrating electronic assemblies using analytical solutions and response surface methodology
8. Stress Analysis of Stretchable Conductive Polymer for Electronics Circuit Application
9. New methodology for qualification and lifetime assessment of electronic systems
Part 2: Textiles Industries
10. Textile Failure Analysis and Mechanical Behavior Characterization by using Acoustic Emission Technique
11. Failure of yarns in different textile applications
12. Treatment effect on failure mode of industrial carbon textile at elevated temperature
Professor Abdel Salam Hamdy Makhlouf is the Vice President of Integrated Mechanical Material Corrosion Consulting (IM2C), Texas, USA, and a Full professor at Central Metallurgical Research and Development Institute. He has 26 years of experience working in R&D with a blend of both industrial and academic leadership as a Professor of Materials Science, and Advanced "nano-bio Manufacturing Engineering, and Materials Engineering Consultant. He is the recipient of numerous national and international prizes and awards including the Humboldt Research Award for Experienced Scientists, at Max Planck Institute, Germany; Fulbright, NSF, and Dept. of Energy Fellowships, USA; Shoman Award in Engineering Science; and the State Prize of Egypt in Advanced Science and Technology. His research has focused on five critical areas: Energy, Health, Environment, Advanced manufacturing, Advanced materials. Dr. Makhlouf has published over 200 journal articles, as well as 17 books and handbooks for Springer and Elsevier on a broad range of cross-disciplinary research fields including advanced multifunctional materials, nanotechnology, smart coatings, corrosion, biomaterials, waste/water treatment, and materials for energy applications. Dr. Makhlouf has served as both a Senior Editor and board member of many international journals, as well as reviewer for several international funding agencies in USA, Germany, UK, Qatar, Belgium, EU, Kazakhstan. He is a Consultant/Reviewer for several universities worldwide.
Mahmood Aliofkhazraei is assistant professor in the department of materials science at the Tarbiat Modares University, where he also earned his master's degree and Ph.D. in corrosion and protection of materials. Dr. Aliofkhazraei has authored over 60 scientific publications on nanostructured coatings and thin films and has received numerous scientific awards, such as Khwarizmi award. He was selected among the 10 top best nanotechnologists in his country.