Abstract

Product miniaturisation and functional integration are currently global trends to save weight, space, materials and costs. This leads to an increasing demand for metallic micro components. Thus, the development of appropriate production technologies is in the focus of current research activities. Due to its efficiency, accuracy and short cycle times, microforming at room temperature offers the potential to meet the steadily increasing demand. During microforming, size effects occur which negatively affect the part quality, process stability, tool life and handling. Within this contribution, a multi-stage bulk microforming process from sheet metal is investigated for the materials Cu-OFE and AA6014 with regard to the basic feasibility and the occurrence of size effects. The results reveal that the process chain is basically suitable to produce metallic micro parts with a high repeatability. Size effects are identified during the process. Since several studies postulate that size effects can be minimised by scaling down the metallic grain structure, the grain size of the aluminium material AA6014-W is scaled down to less than one micrometre by using an accumulative roll bonding process (ARB). Subsequently, the effects of the ultrafine grain (UFG) structure on the forming process are analysed. It could be shown that a strengthened material state increases the material utilization. Furthermore, too soft materials can cause damage on the part during ejection. The occurring size effects cannot be eliminated by reducing the grain size.

Highlights

  • A multi-stage bulk microforming process from sheet metal is investigated for the materials Cu-OFE and AA6014 with regard to the basic feasibility and the occurrence of size effects

  • The results reveal that the process chain is basically suitable to produce metallic micro parts with a high repeatability

  • Since several studies postulate that size effects can be minimised by scaling down the metallic grain structure, the grain size of the aluminium material AA6014-W is scaled down to less than one micrometre by using an accumulative roll bonding process (ARB)

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Summary

Introduction

The demand for metallic micro parts is growing due to a steady miniaturisation with a simultaneous functional integration [1]. These parts are widely applied in the fields of electronics, automotive, micro electromechanical systems, microsystems technology and medical technology [2]. To meet the great demand, manufacturing processes, which are capable to produce the micro parts in high quantities at short cycle times in a high quality, repeatable and cost-efficient, are required. In mass production of metallic parts, forming technology offers economical, technological and ecological advantages in comparison to other production technologies. The scaling of forming processes into micro dimensions leads to size effects [7]

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