Mechanical Joining of Magnesium Components by Means of Inductive Heating - Realization and Capability
The aspect of lightweight constructions becomes more and more important. This particularly applies to the automotive industry which wants to lower the fuel consumption by a smaller vehicle weight. Under this point of view in recent years steel has often been replaced by aluminum alloys. In compariso...
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| Veröffentlicht in: | Materials science forum 2007-03, Vol.539-543, p.1638-1643 |
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| creator | Hahn, Ortwin Horstmann, Magnus |
| description | The aspect of lightweight constructions becomes more and more important. This
particularly applies to the automotive industry which wants to lower the fuel consumption by a
smaller vehicle weight. Under this point of view in recent years steel has often been replaced by
aluminum alloys. In comparison with this the application of lightweight magnesium alloys, whose
specific density is appropriate within the range of plastics, opens further prospects for weight
reduction. The pre-condition for this purpose is the supply of suitable joining processes for
magnesium alloys, which are universally applicable and offer the maximum utilization of the
materials of the joined parts under operating loads. Mechanical joining techniques provide the
opportunity of connecting magnesium components homogeneously as well as in material mix.
However, the anisotropic deformation characteristics of the hexagonal crystal structure of magnesium
at room temperature contain the application for mechanical joining techniques. Only starting from
temperatures of approx. 225°C a sufficient plastic deformation and thus a crack-free shaping of the
magnesium material is given. Therefore preheating of magnesium substrates leads to a broad
extension of deformability and offers the chance to realize a high quality mechanical joint. This article
describes a process-safe realization of the mechanical joining operations clinching, self piercing
riveting and clinch riveting of magnesium sheets by means of an inductive heating of the substrates in
laboratory scale. In this context, feasibilities and limits of the considered joining techniques are
shown. |
| doi_str_mv | 10.4028/www.scientific.net/MSF.539-543.1638 |
| format | Article |
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particularly applies to the automotive industry which wants to lower the fuel consumption by a
smaller vehicle weight. Under this point of view in recent years steel has often been replaced by
aluminum alloys. In comparison with this the application of lightweight magnesium alloys, whose
specific density is appropriate within the range of plastics, opens further prospects for weight
reduction. The pre-condition for this purpose is the supply of suitable joining processes for
magnesium alloys, which are universally applicable and offer the maximum utilization of the
materials of the joined parts under operating loads. Mechanical joining techniques provide the
opportunity of connecting magnesium components homogeneously as well as in material mix.
However, the anisotropic deformation characteristics of the hexagonal crystal structure of magnesium
at room temperature contain the application for mechanical joining techniques. Only starting from
temperatures of approx. 225°C a sufficient plastic deformation and thus a crack-free shaping of the
magnesium material is given. Therefore preheating of magnesium substrates leads to a broad
extension of deformability and offers the chance to realize a high quality mechanical joint. This article
describes a process-safe realization of the mechanical joining operations clinching, self piercing
riveting and clinch riveting of magnesium sheets by means of an inductive heating of the substrates in
laboratory scale. In this context, feasibilities and limits of the considered joining techniques are
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particularly applies to the automotive industry which wants to lower the fuel consumption by a
smaller vehicle weight. Under this point of view in recent years steel has often been replaced by
aluminum alloys. In comparison with this the application of lightweight magnesium alloys, whose
specific density is appropriate within the range of plastics, opens further prospects for weight
reduction. The pre-condition for this purpose is the supply of suitable joining processes for
magnesium alloys, which are universally applicable and offer the maximum utilization of the
materials of the joined parts under operating loads. Mechanical joining techniques provide the
opportunity of connecting magnesium components homogeneously as well as in material mix.
However, the anisotropic deformation characteristics of the hexagonal crystal structure of magnesium
at room temperature contain the application for mechanical joining techniques. Only starting from
temperatures of approx. 225°C a sufficient plastic deformation and thus a crack-free shaping of the
magnesium material is given. Therefore preheating of magnesium substrates leads to a broad
extension of deformability and offers the chance to realize a high quality mechanical joint. This article
describes a process-safe realization of the mechanical joining operations clinching, self piercing
riveting and clinch riveting of magnesium sheets by means of an inductive heating of the substrates in
laboratory scale. In this context, feasibilities and limits of the considered joining techniques are
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particularly applies to the automotive industry which wants to lower the fuel consumption by a
smaller vehicle weight. Under this point of view in recent years steel has often been replaced by
aluminum alloys. In comparison with this the application of lightweight magnesium alloys, whose
specific density is appropriate within the range of plastics, opens further prospects for weight
reduction. The pre-condition for this purpose is the supply of suitable joining processes for
magnesium alloys, which are universally applicable and offer the maximum utilization of the
materials of the joined parts under operating loads. Mechanical joining techniques provide the
opportunity of connecting magnesium components homogeneously as well as in material mix.
However, the anisotropic deformation characteristics of the hexagonal crystal structure of magnesium
at room temperature contain the application for mechanical joining techniques. Only starting from
temperatures of approx. 225°C a sufficient plastic deformation and thus a crack-free shaping of the
magnesium material is given. Therefore preheating of magnesium substrates leads to a broad
extension of deformability and offers the chance to realize a high quality mechanical joint. This article
describes a process-safe realization of the mechanical joining operations clinching, self piercing
riveting and clinch riveting of magnesium sheets by means of an inductive heating of the substrates in
laboratory scale. In this context, feasibilities and limits of the considered joining techniques are
shown.</abstract><pub>Trans Tech Publications Ltd</pub><doi>10.4028/www.scientific.net/MSF.539-543.1638</doi><tpages>6</tpages></addata></record> |
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| source | Scientific.net Journals |
| title | Mechanical Joining of Magnesium Components by Means of Inductive Heating - Realization and Capability |
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