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Keyword [Crack initiation]
Result: 81 - 100 | Page: 5 of 7
81. Numerical Simulation Of Fatigue Crack Initiation Considering Microstructure Characteristics Of Electron Beam Welded Joints
82. Study On The Influence Of Smooth Blasting Parameters On Blasting Crack And Fragmentation
83. Predicting Extremely Low-Cycle Fatigue Crack Initiation Life Of Steel Bridge Piers
84. Research On Rail Contact Fatigue Crack Initiation Life Considering Stochastic Factor
85. Study On Crack Initiation And Propagation In The Base Plate Of CRTS? Ballastless Track For Subgrade Section
86. Fatigue Crack Initiation Mechanism Of Rail Under Hardness Gradient Change
87. Studies Of Fatigue Crack Initiation Life Prediction Of Rotor Groove Components Based On Back Stress Plastic Work
88. Research On Fatigue Property And Life Prediction Of Welding Joints Used In High-rise Steel Structures Based On Strain Energy Density
89. An Efficient Approach For Identification Of Damage In Aero Engine Blades Using Acoustic Emission
90. Predicting Extremely Low-Cycle Fatigue Crack Initiation Life Of Partially Concrete-Filled Steel Box-Section Bridge Piers
91. Research On The Mechanism Of Bar Fracture In High-speed Centrifugal Cropping
92. Experimental Study On Fretting Fatigue Life Of Single-sided Lap Connection Of Bolts Considering The Influence Of Rough Surface
93. Study On The Effect Of Ball-Raceway Contact Movement On Raceway Fatigue Life
94. Study On Crack Initiation And Propagation In The Anchorage Structure Of CRTS? Slab Ballastless Track
95. Study On Crack Initiation In The Base Plate Of CRTS? Slab Ballastless Track For Subgrade Section
96. Research On Fatigue Crack Initiation And Propagation Of Gearbox Material For High Speed Train Based On In-situ Fatigue Method
97. Prediction And Evaluation Of Fatigue Life For Automotive Front Shock Absorber Cylinder
98. Prediction And Evaluation Of Fatigue Life For Automotive Enging Bracket
99. Small crack initiation and formation - an investigation into equivalent initial flaw size and parallel offset surface crack interactions
100. A cohesive zone model approach to multiaxial fatigue
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