Skip to main navigation
Skip to search
Skip to main content
Charles Darwin University Home
Home
Profiles
Research Outputs
Datasets
Organisational Units
Student theses
Projects
Search by expertise, name or affiliation
Cavitation damage to potential sewer and drain pipe materials
Charles Fairfield
Research output
:
Contribution to journal
›
Article
›
peer-review
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Cavitation damage to potential sewer and drain pipe materials'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Engineering
Sewer
100%
Pipe Material
100%
Polysulfone
33%
Candidate Material
33%
Polyetherimide
33%
Performance
16%
Gas Fuel Manufacture
16%
Water
16%
Testing
16%
Mechanisms
16%
Cavity
16%
Polyetheretherketone
16%
Poly-Phenylene Sulphide
16%
Giving Rise
16%
Test Sample
16%
Scattering
16%
Test Equipment
16%
Cavitation Corrosion
16%
Pipe
16%
Calibration
16%
Processing
16%
Fluctuations
16%
Damage Rate
16%
Nylon
16%
Resistance Test
16%
Cavitating Jet
16%
High Water Pressure
16%
Cavity Radius
16%
Chemistry
Cavitation
100%
Jet
50%
Pressure
33%
Polyetheretherketone
33%
Time
16%
Volume
16%
Resistance
16%
Rate
16%
Reaction Mechanism
16%
Sample
16%
Particle Size
16%
Base
16%
Polymer
16%
Scattering
16%
Nylon
16%
Glass
16%
Sulfide
16%
Material Science
Material
100%
Cavitation
100%
Concrete (Composite Building Material)
33%
Glass
16%
Ceramics
16%
Droplet
16%