THERMODYNAMIC RESTRICTIONS ON SURFACE STRESS, AND ITS ESHELBIAN FORMS, FOR AN INTERFACE DRIVEN BY MECHANICAL, THERMAL AND CHEMICAL FORCES WITH APPLICATIONS TO SNBI SOLDER JOINTS

Pei-En Chou (19691614)

19 September 2024

<p dir="ltr">This thesis explores the thermodynamics and mechanics of reaction-diffusion interfaces in solid materials, focusing on configurational forces for bulks and surfaces, which are essential in understanding phenomena like electromigration, phase separation, and void evolution. The work is divided into four themes: bulk and surface configurational mechanics, electromigration in solder joints, and solid mixture theory. The thesis develops theories based on continuum mechanics and configurational forces, deriving Eshelby stress tensors and balance laws for interfaces. Experimental work on electromigration in SnBi solder joints is used to validate the theory. The research contributes to advancing the understanding of solid-state diffusion and phase evolution in engineering materials.</p>

Microelectronics

Solid mechanics

interconnect deformation

interconnect test structures

Solid mechanics

Configurational Force

Moving interfaces

Eshelby

Second Law of Thermodynamics

fracture mechanics theory

Continuum mechanics.

surface stress f

Interface balance laws

current crowding

EDX characterization

sem characterizations

X-ray tomographic microscopy

FIB methods

Reaction Diffusion Theory

Solid state diffusion

electromigration device

cleanroom fabrication