Prediction of Fine Blanking Tool Deformation to Produce Multiple Turbocharger Vane Levers with Stainless Steel

Jong Deok Kim; Jeong Jin Kang

doi:10.4028/www.scientific.net/MSF.724.151

Paper Titles

Compressive Strength Evaluation of SCR Catalyst Recycled Al-Dross
p.135

A Study on the Effect of High Calorie Diet on Stress Alleviation
p.139

Fabrication and Surface Hardening Properties for SiC/AlN Ceramic Composites with Different SiC Grain Size
p.143

Reduction Effects of Urban Heat Island by Water-Retentive Pavement
p.147

Prediction of Fine Blanking Tool Deformation to Produce Multiple Turbocharger Vane Levers with Stainless Steel
p.151

Defects Diagnosis Technology of Water Supply Pipe's Network Using Pipe Endoscope Camera of High Resolution/High Pressure Resistance Performance
p.155

Preparation and Characterization of KGM/CaCO₃Composite Films
p.159

Effect of Aluminum Addition on the Static Recrystallization Behavior of Magnesium
p.163

A Study on Thermal Conductivity and Mechanical Properties of Al-Zn-Mg Aluminum Alloys
p.169

HomeMaterials Science ForumMaterials Science Forum Vol. 724Prediction of Fine Blanking Tool Deformation to...

Prediction of Fine Blanking Tool Deformation to Produce Multiple Turbocharger Vane Levers with Stainless Steel

Abstract:

The use of turbochargers improves engine power, reduces the rate of fuel consumption. The vane lever is an important part of a turbocharger that regulates the volume of hot exhaust gas. Until now it has been produced by a 4 cavity fine blanking tool, but it requires the use of an 8 cavity fine blanking tool for better productivity. In this paper, we conducted structural simulation of an 8 cavity fine blanking tool and predicted the deformation of fine blanking tool elements. The maximum vertical deformation of the die was 0.01222mm and the maximum horizontal deformation of the die was 0.00096mm. This deformation led to a clearance change in the 8 cavity fine blanking tool. According to the simulation results, the calculated clearance was increased to a maximum of 45.9%, decreased to a minimum of 49.0%. Through the fine blanking experiment with the manufactured 8 cavity fine blanking tool, we demonstrated that 8 vane levers could be simultaneously produced by the 8 cavity fine blanking tool.

You might also be interested in these eBooks

Eco-Materials Processing and Design XIII

View Preview

Info:

Periodical:

Materials Science Forum (Volume 724)

Pages:

151-154

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.724.151

Citation:

Cite this paper

Online since:

June 2012

Authors:

Jong Deok Kim, Jeong Jin Kang

Keywords:

Clearance, Deformation, Die, Fine Blanking, Punch, Vane Lever

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] T. Altan, in: Metal Forming Handbook, Shuler GmbH, chapter 4, Berlin Heidelberg New York, Springer-Verlag (1998).

Google Scholar

[2] K. Lange, F. Birzer, P. Hoefel, A. Muhoty, H. Singer, in: Cold forming and Fineblanking, Edelstahlwerke Buderus AG, Feintool AG Lyss, Hoesch Hohenlimburg GmbH, Kaltwaltzwerk Brockhaus GmbH (1997), pp.154-162.

Google Scholar

[3] F. Birzer, in: Forming and fineblanking, Landesberg/Lech, verlag moderne Industrie (1997), pp.7-18.

Google Scholar

[4] Y. J. Kim, T. S. Kwak and W.B. Bae : Trans. Mater. Process. Vol. 9, No. 2(2000), pp.152-158.

Google Scholar