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SPP 1676:  Dry Metal Forming - Sustainable Production through Dry Processing in Metal Forming

Subject Area Mechanical and Industrial Engineering
Term from 2013 to 2020
Project identifier Deutsche Forschungsgemeinschaft (DFG) - Project number 220217456
 
The process of metal forming already belongs to the most energy-efficient production technologies, due to the high material utilisation. From an economic as well as an ecological point of view, there exists a strong demand to avoid lubricants within metal forming processes. Currently, in all groups of procedures in metal forming, lubricants are applied to reduce friction between work piece and forming tool, to protect semi-finished products and goods against corrosion and to reduce tool load. Within their product life cycle - from production to disposal -, these mostly mineral oil based lubricants have an environmental impact. The central contribution of the Priority Programme is the development of new dry forming processes and to adapt relevant technologies to contribute to the goal of a lubricant-free press plant. Dry metal forming is a process where a work piece leaves the forming tool without the necessity of cleaning or drying before subsequent production steps such as coating or joining processes. The absence of a lubricant as an interlayer between work piece and forming tool results in an intense mechanical interaction between work piece surface and forming tool surface. The main challenge is to control these interactions, even without usage of lubricant. The influences of tribological factors and material properties on the process window are different. Understanding these deducing influences shall enable whether a critical reduction of the process window can be avoided. Focussed on the forming tool, the mechanisms of tool failure are in the foreground. To control the mechanisms of failure behaviour and to make dry forming applicable, an increasing load-bearing capacity of forming tools has to be realised to withstand stresses. This can be achieved by a targeted surface modification or by reducing stresses by process technical measures. The purpose is to implement a stable process by such modifications.
DFG Programme Priority Programmes

Projects

Participating Persons Professor Dr.-Ing. Bernd-Arno Behrens; Professor Dr.-Ing. Eckhard Beyer; Professorin Dr.-Ing. Kirsten Bobzin; Professor Dr.-Ing. Alexander Brosius; Professor Dr. Günter Bräuer; Professor Dr. Thomas Graf; Professor Dr.-Ing. Peter Groche; Professor Dr.-Ing. Gerhard Hirt; Professor Dr.-Ing. Fritz Klocke; Professor Dr.-Ing. Bernd Kuhfuß; Professor Dr.-Ing. Dirk Landgrebe; Professor Dr.-Ing. Andrés Fabián Lasagni; Professor Dr.-Ing. Mathias Liewald; Professor Dr.-Ing. Hans Jürgen Maier; Professorin Dr.-Ing. Marion Merklein; Professor Dr. Reinhart Poprawe; Dr.-Ing. Oltmann Riemer; Professor Dr.-Ing. Stefan Rosiwal; Professor Dr.-Ing. Michael Schmidt; Professor Jochen M. Schneider, Ph.D.; Professor Dr.-Ing. Andreas Schubert; Dr.-Ing. Thomas Seefeld; Professor Dr. Günter Tovar; Professor Dr.-Ing. Stephan Tremmel; Professor Dr.-Ing. Wolfram Volk; Professor Dr.-Ing. Hans-Werner Zoch
 
 

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