Lead-free Solders: Materials Reliability for Electronics provides a comprehensive understanding of the current state of lead-free electronic interconnects research from fundamental, applied, and manufacturing perspectives. The main thematic areas addressed include:

 

• • Alloy development

  • Composite approaches (including nanoscale reinforcements)

  • Thermomechanical fatigue

  • Electromigration

  • Whisker growth

  • Reliability under impact loading

  • Accelerated thermal cycling

  • Long-term reliability

  • High temperature lead-free solders

 

Lead-free Solders: Materials Reliability for Electronics:

 

• • Provides a comprehensive review of the current state of knowledge for implementing lead-free electronics required under recent legislation

  • Includes articles on alloy development, electromigration and long-term reliability

  • Contains contributions from academic, industrial and national laboratory researchers

 

Representing a major resource in material design for microelectronics development and manufacturing this is essential reading for Researchers in materials science and electronic/electrical engineering in both academia and industry, as well as graduate students in these fields. Physicists and chemists involved in lead-free electronics will also find this of interest.