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Polymer gear surface thermal wear and its performance prediction
K Mao, W Li, Christopher Hooke, Douglas Walton
Mechanical Engineering
Research output
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Contribution to journal
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Article
44
Citations (Scopus)
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Dive into the research topics of 'Polymer gear surface thermal wear and its performance prediction'. Together they form a unique fingerprint.
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Keyphrases
Wear Rate
100%
Performance Prediction
100%
Polymer Gears
100%
Gear Surface Temperature
100%
Gear Wear
100%
Thermal Wear
100%
Acetal Gear
100%
Prediction Method
33%
Surface Temperature
33%
Surface Temperature Change
33%
Load Capacity
33%
Ambient Temperature
33%
Gear Geometry
33%
Operating Speed
33%
Wear Behavior
33%
Loading Conditions
33%
Running Speed
33%
Thermal-mechanical
33%
Operating Temperature
33%
Mechanical Contact
33%
Specific Wear Rate
33%
Torque Prediction
33%
Bulk Temperature
33%
Flash Temperature
33%
General Relation
33%
Engineering
Test Result
100%
Performance Prediction
100%
Melting Point
50%
Good Agreement
50%
Operating Speed
50%
Experimental Investigation
50%
Load Condition
50%
Sudden Increase
50%
Load Capacity
50%
Operating Temperature
50%
Critical Load
50%
Running Speed
50%
Bulk Temperature
50%
Flash Point
50%
Specific Wear Rate
50%