Innovations of Hot-Forming for Cost-Efficient Lightweight Solution in Car Body
p.244
p.244
Investigation of Hot Stamping Process of 22MnB5 Based on Metallo-Thermo-Mechanical Theory
p.251
p.251
Numerical Analysis on Bullet Penetration Resistance of Heat Treated Lightweight C-Grade Bulletproof Steel Plates
p.257
p.257
High-Strength Steel Door-Beam Design and Digital Simulation
p.264
p.264
Hot Stamping Simulation with PAM-STAMP of the B-Pillar of a Well-Known SUV
p.268
p.268
Analysis of the Design and Mechanical Performance about Hot Stamping Power Fitting Products
p.272
p.272
The Parametric Design of Cooling System of Hot Stamping Die
p.276
p.276
Study on Three Dimensional Direct Coupling Simulation of Induction Heating for Hot Stamping
p.280
p.280
Thermo-Mechanical Forming Analysis and Mapping of Material Properties in Press Hardened Components with Tailored Material Properties
p.290
p.290
Hot Stamping Simulation with PAM-STAMP of the B-Pillar of a Well-Known SUV
Abstract:
Hot stamping is today the most efficient method to lighten automotive parts by keeping or even increasing vehicle security. The B-pillar of this report is from a well-known SUV’s style 2013 from a big JV OEM in Shanghai. 3 steps job were completed: die designing, blank generation and optimization, hot stamping simulation. Customer’s feedback showed a good correlation between FE analysis and trial out results.
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Periodical:
Advanced Materials Research (Volume 1063)
Pages:
268-271
Citation:
Online since:
December 2014
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Сopyright:
© 2015 Trans Tech Publications Ltd. All Rights Reserved
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