INIS
alloys
100%
investigations
100%
potting
100%
thermal fatigue
100%
simulation
50%
strains
50%
energy density
50%
reliability
33%
creep
33%
data
33%
silver
16%
dynamics
16%
finite element method
16%
tensile strength
16%
applications
16%
metrics
16%
damage
16%
deformation
16%
glass
16%
comparative evaluations
16%
compacts
16%
storage
16%
transition temperature
16%
lifetime
16%
Engineering
Fatigue Property
100%
Interconnects
100%
Alloy
100%
Thermal Fatigue
100%
Potting Compound
100%
Strain Energy Density
50%
Application
16%
Transition Temperature
16%
Models
16%
Finite Element Method
16%
Metrics
16%
Material Data
16%
Dynamic Mechanical Analysis
16%
Reliability
16%
Creep
16%
Creep Behavior
16%
Temperature
16%
Tensile Loads
16%
Fatigue Reliability
16%
Storage Modulus
16%
Ultimate Tensile Strength
16%
Free Solder
16%
Material Science
Alloy
100%
Thermal Fatigue
100%
Energy Density
50%
Materials
33%
Tensile Loads
16%
Creep Property
16%
Finite Element Method
16%
Temperature
16%
Creep
16%
Silver
16%
Dynamic Mechanical Analysis
16%
Elastic Moduli
16%
Glass Transition Temperature
16%
Ultimate Tensile Strength
16%
Durability
16%
Lead-Free Solder
16%
Keyphrases
Potting Compound
100%
Tensile Creep
33%
Density Increment
16%
Averaged Strain Energy Density
16%
Thermal Fatigue Reliability
16%
Pb-free Solder
16%
Interconnect Reliability
16%
Deformation Endurance
16%
Silver Content
16%
Available Lead
16%