Ductile Damage Evolution Analysis of Lead-Free Sn-Zn Solder Based on Meso Topography
p.1004
p.1004
Behavior of Carbide Dissolution and Precipitation in WD1 Steel Used for Warm Work Dies
p.1009
p.1009
Preparation and Characterization of Nanosized Barium-Strontium Titanate Immobilized on Aluminum Oxide and its Application in Separation of Cr(III) and Cr(VI)
p.1013
p.1013
An Analysis of Slope Stability of Sand Embankment with Shear Strength Reduction (SSR) Method
p.1017
p.1017
2D FE Modeling of Cracked Aluminum Plates Repaired with Adhesively Bonded Composite Patches
p.1024
p.1024
The Preparation of ZnO Gas-Sensing Material by Nucleation-Crystallization Separation Method
p.1031
p.1031
Microstructure and Mechanical Properties of Hot Rolled TRIP Steel Based on Dynamic Transformation of Undercooled Austenite
p.1038
p.1038
Preparation and Characterization of Water Based and Double Enveloped Nano-Fe3O4 Magnetic Fluids
p.1044
p.1044
Relationships between the Abilities of the Forming Bond of the Precipitated Phases and their Precipitations and Phases Transition in Al-Fe-Si Alloy
p.1049
p.1049
2D FE Modeling of Cracked Aluminum Plates Repaired with Adhesively Bonded Composite Patches
Abstract:
A 2D FE model of cracked aluminum plates repaired with adhesively bonded composite patches was established in this paper, and then the model was validated by comparing the calculated SIF and fatigue life of repaired structure with existing results. The result shows that the model is accurate enough to be used to analyze the mechanical property of cracked aluminum plates repaired with adhesively bonded composite patches.
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Info:
Periodical:
Advanced Materials Research (Volumes 152-153)
Pages:
1024-1030
Citation:
Online since:
October 2010
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© 2011 Trans Tech Publications Ltd. All Rights Reserved
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