A Virtual Cutting Based Method for Aero Engine Turbine Blade Reverse Modeling from Its Cone Beam CT Images
p.877
p.877
Elastic-Plastic Contact Analysis of Materials with Gradient Yield Strength
p.881
p.881
Study on Non-Interference Normal Tracking Algorithm for NC Quick-Point Grinding of the Curve Parts
p.885
p.885
A New Method for Solving the Direct Kinematics of 6-DOF SPS
p.889
p.889
Contact Analysis and Optimization of Elastic Orientating Component by Finite Element Method
p.893
p.893
Research on GA-ANN Integration and Its Applications to Cold Extrusion Process Design
p.897
p.897
TRIZ-Aided Innovation in Conceptual Design of Control Strategies
p.901
p.901
Real-Time Model Building and Experiment Researching of Grinding Force for External Plunge Grinding Process
p.905
p.905
Research on Integration Technology of Numerical Engineering Collaborative Design and Simulation Platform
p.909
p.909
Contact Analysis and Optimization of Elastic Orientating Component by Finite Element Method
Abstract:
In this paper, the strength and deformation of an elastic orientating component (sleeve) were analyzed by Finite Element Method (FEM). The highest stress of the part and the relationship between the dimension and deformation were found. The position under the critical situation was obtained. The optimal dimension of the sleeve was given.
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Periodical:
Materials Science Forum (Volumes 532-533)
Pages:
893-896
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Online since:
December 2006
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© 2006 Trans Tech Publications Ltd. All Rights Reserved
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