INIS
finite element method
100%
implants
81%
design
54%
reviews
41%
wear
40%
investigations
36%
prostheses
29%
bones
25%
alloys
25%
patients
23%
size
23%
hybrids
20%
performance
19%
liners
17%
dynamics
17%
electric-powered vehicles
17%
surfaces
16%
applications
16%
fabrication
15%
fibers
15%
distribution
14%
aluminium
14%
femur
14%
particles
14%
fillers
14%
optimization
14%
humans
14%
air
13%
management
13%
vehicles
13%
metals
13%
thickness
13%
abrasion
12%
mobility
12%
matrices
12%
comparative evaluations
12%
boron carbides
12%
epoxides
12%
fatigue
12%
ureters
12%
thermal batteries
12%
deformation
11%
bamboo
11%
static loads
11%
length
11%
mechanical properties
10%
increasing
10%
loading
10%
polyethylenes
10%
simulation
10%
Engineering
Finite Element Analysis
87%
Hip Implant
59%
Implant
42%
Joints (Structural Components)
38%
Material Combination
20%
Hip Prosthesis
18%
Automotives
16%
Computational Fluid Dynamics
16%
Electric Vehicle
16%
Backup
13%
Static Loading Condition
12%
Battery Thermal Management System
12%
Hybrid Composite
12%
Patient Specific
10%
Prosthesis
9%
Artificial Hip Joint
9%
Loading Condition
8%
Boundary Condition
8%
Stem Design
8%
Phase Change Material
8%
Fatigue Life
8%
Biomechanics
8%
Tensile Test
8%
Velocity Gradient
8%
Shear Walls
8%
Mechanical Property
8%
Pressure Gradient
8%
Tensiles
8%
Phase Composition
7%
Impact Strength
7%
Applied Load
6%
High Molecular Weight Polyethylene
6%
Flow Analysis
6%
Neck Region
6%
Tensile Property
6%
Ti-6al-4v
6%
Radial Clearance
6%
Factor of Safety
6%
Biomedical Application
6%
Stress Level
5%
Finite Element Modeling
5%
Metal Matrix Composite
5%
Passenger Cars
5%
Fiber-Reinforced Composite
5%
Discharge Rate
5%
Dynamic Loading Condition
5%
Ultimate Tensile Strength
5%
