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Fatigue testing of interlocking Stainless Steel
Z. Chen
*
, R. L. Reuben, D. G. Owen
*
Corresponding author for this work
Global Engineering Ltd
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Engineering
Interlock
100%
Pipe
100%
Full Scale
66%
Stainless Steel
66%
Composite
66%
Laboratories
33%
Design Procedure
33%
Longer Term
33%
Machining
33%
Fatigue Performance
33%
Fatigue Testing
33%
Calibration Procedure
33%
Experimental Technique
33%
Flexible Pipe
33%
Composite Construction
33%
Loading Condition
33%
Structural Component
33%
Mechanical Fatigue Test
33%
Sample Tube
33%
Design
33%
Testing
33%
Failure (Mechanical)
33%
Small Specimen
33%
Physics
Fatigue Behavior
100%
Composite
66%
Machining
33%
Failure
33%
Significance
33%
Material Science
Stainless Steel
66%