INIS
additives
50%
applications
16%
beams
16%
biological materials
100%
bones
16%
compacts
16%
crack propagation
100%
cracks
33%
fabrication
16%
fatigue
100%
implants
16%
lasers
16%
length
16%
loading
16%
manufacturing
50%
mechanical properties
16%
melting
16%
modeling
100%
porous materials
100%
prediction
16%
stiffness
16%
titanium
33%
values
16%
volume
16%
Engineering
Additive Manufacturing
50%
Additive Manufacturing Technique
25%
Beam Element
25%
Clinical Application
25%
Combines
25%
Elements
25%
Experiments
25%
Fatigue Crack Propagation
100%
Fatigue Response
50%
Length Scale
25%
Macroscale
25%
Mechanical Properties
25%
Microscale
25%
Models
100%
Multiscale
25%
Multiscale Modeling
100%
Notched Specimen
25%
Porous Structure
50%
Porous Titanium
25%
Selective Laser Melting
25%
Material Science
Biomaterial
100%
Bone
25%
Crack Propagation
100%
Fatigue Behavior
25%
Fatigue Crack
100%
Mechanical Property
25%
Multi-Scale Modeling
25%
Selective Laser Melting
25%
Stiffness
25%
Three Dimensional Printing
75%
Titanium
50%