Engineering & Materials Science
Knee prostheses
100%
Wear of materials
53%
Ultrahigh molecular weight polyethylenes
46%
Testing
28%
Bone
28%
Zirconia
27%
Ion beam assisted deposition
20%
Arthroplasty
17%
Kinematics
17%
Force control
15%
Ion beams
15%
Electric power generation
14%
Simulators
14%
Ligaments
13%
Orthopedics
11%
Prosthetics
10%
Titanium oxides
10%
Osteoblasts
9%
Oxide films
9%
Irradiation
8%
Ion bombardment
8%
Water hammer
7%
Cell growth
7%
Drill strings
7%
Phase transitions
7%
Piezoelectric ceramics
7%
Biomaterials
7%
Biofilms
7%
Titanium
7%
Polyethylenes
7%
Grain growth
6%
Flight paths
6%
Fatigue of materials
6%
Lead zirconate titanate
6%
Refrigerators
6%
Annealing
6%
Scaffolds
6%
Tendons
6%
Coatings
6%
Metals
6%
Surgery
5%
ISO Standards
5%
End effectors
5%
Ions
5%
Thermodynamic stability
5%
Screening
5%
Genes
5%
Thin films
5%
Medicine & Life Sciences
Knee Replacement Arthroplasties
74%
Knee
49%
Biomechanical Phenomena
26%
Hip
19%
ultra-high molecular weight polyethylene
18%
Replacement Arthroplasties
16%
Arthroplasty
14%
Knee Joint
14%
Polyethylene
13%
In Vitro Techniques
12%
Hip Joint
12%
tantalum oxide
10%
Biofilms
10%
Technology
9%
Fatigue
9%
Torque
9%
Bone and Bones
9%
ceric oxide
9%
Joints
9%
Surgeons
8%
Walking
8%
Stethoscopes
8%
Gait
8%
Heart Sounds
7%
Posterior Cruciate Ligament
7%
Hardness
7%
zirconium oxide
7%
Infections
7%
Ceramics
6%
Friction
6%
Cadaver
6%
Atomic Force Microscopy
6%
Staphylococcus aureus
6%
Replantation
6%
Arthrodesis
6%
Aluminum
6%
Therapeutic Irrigation
6%
Silver
5%
Vitamin E
5%
Robotics
5%
Titanium
5%
Transmission Electron Microscopy
5%
Cell Communication
5%
Ankle
5%
Chemical Compounds
Wear
50%
Bearing
26%
Kinematics
18%
Implant
17%
Ultra High Molecular Weight Polyethylene
15%
Hip
11%
Jig
9%
Wear Rate
8%
Biofilm Formation
7%
Grain Growth
6%
Ion Beam
6%
Cubic Space Group
5%
Tetragonal Space Group
5%
Rutile
5%
Instrumentation
5%
Displacement
5%
Annealing
5%
