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Wear testing of materials and surfaces for total knee replacement
P S Walker,
G W Blunn
, P A Lilley
Royal National Orthopaedic Hospital NHS Trust
Research output
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Contribution to journal
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Article
›
peer-review
Overview
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Dive into the research topics of 'Wear testing of materials and surfaces for total knee replacement'. Together they form a unique fingerprint.
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INIS
wear
100%
polyethylenes
63%
molecular weight
63%
surfaces
54%
bone joints
36%
water
27%
comparative evaluations
18%
defects
18%
films
18%
cobalt
18%
evaluation
9%
applications
9%
damage
9%
morphology
9%
fatigue
9%
cylinders
9%
testing
9%
crack propagation
9%
cracking
9%
lubrication
9%
zirconium
9%
oxidation
9%
hardness
9%
immunity
9%
wettability
9%
lubricants
9%
Nursing and Health Professions
Ultra High Molecular Weight Polyethylene
63%
Device Material
36%
Total Knee Arthroplasty
36%
Distilled Water
27%
Film
18%
Cobalt
18%
Chromium
18%
Evaluation Study
9%
Procedures
9%
Fatigue
9%
Lubricating Agent
9%
Zirconium
9%
Chemistry
Ultra High Molecular Weight Polyethylene
63%
Wear Rate
27%
Water Type
27%
Surface
18%
Cylinder
9%
Crack Propagation
9%
Lubrication
9%
Testing of Material
9%
Application
9%
Number
9%
Hardness
9%
Disk
9%
Cracking (Chemical)
9%
Surface Phenomena
9%
Engineering
Zirconium
27%
Water
27%
Subsurface
18%
Surfaces
18%
Defects
18%
Applicability
9%
Bearing Material
9%
Bearing Surface
9%
Low Wear Rate
9%
Surface Wettability
9%
Oxidative Wear
9%
Test Method
9%
Hardness
9%
Applications
9%
Evaluation
9%
Mechanisms
9%
Radius
9%
Physics
Water
27%
Wear
27%
Defects
18%
Cobalt
18%
Chromium
18%
Serums
18%
Hardness
9%
Wear Test
9%
Lubricant
9%
Lubrication
9%
Utilization
9%
Sides
9%
Evaluation
9%
Transferring
9%
Cracking (Fracture)
9%
Material Science
Surface Fatigue
27%
Material
18%
Surface
18%
Defect
18%
Wear Testing
9%
Morphology
9%
Film
9%
Hardness
9%