Ship Lines Modeling Theory of High-Speed Ship Based on the Partial Differential Equations
p.1827
p.1827
A Production Scheduling Framework Integrated with Simulation Module
p.1831
p.1831
Study of the Mechanical Properties for an Automotive Part under Squeeze Casting Process
p.1837
p.1837
Numerical and Experimental Investigation into the Aluminum Alloy Irregular Box Sheet Hydroforming Process
p.1846
p.1846
Numerical Simulation for Precision Roll-Forging of Automobile Front Axle
p.1850
p.1850
Fabrication of Aluminum Clad Copper Tube by Planet Schràge Walzwerk Process
p.1855
p.1855
Numerical Simulation of Springback in Stretch Forming with Two Different Grippers
p.1860
p.1860
Numerical Simulation on Rolling Process of Medium Plate
p.1864
p.1864
Optimization Design of Forging Die for Supporting Bar Based on DEFORM-3D
p.1869
p.1869
Numerical Simulation for Precision Roll-Forging of Automobile Front Axle
Abstract:
Roll forging process for automobile front axle has been simulated by using a rigid viscoplastic finite element method, force-time curve have been obtained and analyzed. On the basis of simulation result, typical characteristics of roll forging process have been explained. It concluded that simulation results could guide the development of roll forging and die design for automobile front axle.
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Periodical:
Advanced Materials Research (Volumes 602-604)
Pages:
1850-1854
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Online since:
December 2012
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© 2013 Trans Tech Publications Ltd. All Rights Reserved
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