The Parametric Design of Cooling System of Hot Stamping Die

Xiang Dong Xian; Yi Lin Wang

doi:10.4028/www.scientific.net/AMR.1063.276

Paper Titles

Numerical Analysis on Bullet Penetration Resistance of Heat Treated Lightweight C-Grade Bulletproof Steel Plates
p.257

High-Strength Steel Door-Beam Design and Digital Simulation
p.264

Hot Stamping Simulation with PAM-STAMP of the B-Pillar of a Well-Known SUV
p.268

Analysis of the Design and Mechanical Performance about Hot Stamping Power Fitting Products
p.272

The Parametric Design of Cooling System of Hot Stamping Die
p.276

Study on Three Dimensional Direct Coupling Simulation of Induction Heating for Hot Stamping
p.280

Thermo-Mechanical Forming Analysis and Mapping of Material Properties in Press Hardened Components with Tailored Material Properties
p.290

Local Design and Near Net Shape Optimization of Typical Ultra-High Strength Steel B-Pillar in Hot Stamping
p.297

The Process Optimization to Prevent the Local Wrinkles of Hot Stamping Parts and the Design of Tools
p.301

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1063The Parametric Design of Cooling System of Hot...

The Parametric Design of Cooling System of Hot Stamping Die

Abstract:

This paper puts forward to develop a software tool for parametric design of cooling system of hot stamping die based on UGNX platform. The hot stamping die is divided into several modules based on the characteristics of design processes, including loading die template, designing working parts and designing cooling system. As the most important module, the functional characteristics and design processes of cooling system are mainly introduced, and the optimization design of cooling channels are analyzed based on parametric design of cooling system.

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Periodical:

Advanced Materials Research (Volume 1063)

Pages:

276-279

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1063.276

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Online since:

December 2014

Authors:

Xiang Dong Xian, Yi Lin Wang*

Keywords:

Cooling System, Hot Stamping Die, Parametric Design

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* - Corresponding Author

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