Locally Adapted Tribological Conditions as a Method for Influencing the Material Flow in Sheet-Bulk Metal Forming Processes

Maria Loeffler; Thomas Schneider; Ulrich Vierzigmann; Ulf Engel; Marion Merklein

doi:10.4028/www.scientific.net/KEM.639.267

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Experimental Verification of a Benchmark Forming Simulation
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Flexible Rolling of Process Adapted Semi-Finished Parts and its Application in a Sheet-Bulk Metal Forming Process
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Experimental and Simulative Investigations of Tribology in Sheet-Bulk Metal Forming
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Measuring Systems for Sheet-Bulk Metal Forming
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Formability Characteristics of Hot Stamped Ti6Al4V Sheets Electro-Chemically Modified on Surface for Biomedical Applications
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 639Locally Adapted Tribological Conditions as a...

Locally Adapted Tribological Conditions as a Method for Influencing the Material Flow in Sheet-Bulk Metal Forming Processes

Abstract:

Due to ecological and economic challenges there is a growing demand for lightweight construction by using closely-tolerated complex functional components with variants. Conventional sheet and bulk metal forming operations are often improvident in producing such parts. A promising approach is the process-class “sheet-bulk metal forming” (SBMF). Within SBMF bulk forming operations are applied to sheet metals, often in combination with sheet forming operations [1]. This leads to a significant gradient in load conditions regarding stress and strain states and causes locally varying tribological conditions. Thus, the investigation of the tribological conditions and the provision of suited tribological systems are essential for the successful application of SBMF processes. The objective of the current study is the experimental investigation of the applicability of tribological adaptions by local abrasive blasting on a single-stage process combination of deep drawing and upsetting to produce a component with an external gearing. The manipulation of the local tribological conditions by the use of abrasive blasting leads to a better control of the material flow and in consequence to an improved quality of the components in terms of higher mould filling and cup heights, and a reduced thickening of the sheet in the area of the cup bottom.

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Periodical:

Key Engineering Materials (Volume 639)

Pages:

267-274

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.639.267

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Online since:

March 2015

Authors:

Maria Loeffler*, Thomas Schneider, Ulrich Vierzigmann, Ulf Engel, Marion Merklein

Keywords:

Forming, Tailored Surfaces, Tribology

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* - Corresponding Author

References

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