Forming Construction Elements for Aviation from Light Alloys with the Use of Cold Extrusion in Complex State of Strain

Agata Mrugała; Dariusz Kuc

doi:10.4028/www.scientific.net/SSP.246.240

Paper Titles

The Deformability of Fe-Ni Superalloy during High Temperature Deformation
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The Influence of the Components of the Bimetallic Tubes for the Way of Deforming in the Hollow Drawing Process
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Structure and Properties of Steel Welding after Micro-Jet Cooling Process
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The Influence of Molding Parameters on the Structure of the ZnAl40Cu2Ti Alloy
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Forming Construction Elements for Aviation from Light Alloys with the Use of Cold Extrusion in Complex State of Strain
p.240

Causes of Increased Number of Non-Metallic Inclusions in Filtered Steel
p.244

Importance of Electrodes Slipping Algorithm for the Ferrosilicon Smelting Process
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The Influence of Thermodynamic Conditions for Steel Filtration Efficiency
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Selection of Carbon Reducers for the Ferrosilicon Smelting Process
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HomeSolid State PhenomenaSolid State Phenomena Vol. 246Forming Construction Elements for Aviation from...

Forming Construction Elements for Aviation from Light Alloys with the Use of Cold Extrusion in Complex State of Strain

Abstract:

The article presents the results of tests which are connected with possibilities of forming the magnesium alloys. Research was conducted on the basis of the plastic forming test with the use of KOBO method – cold forming. Materials for tests were ingots from magnesium alloys and the results of tests were the achieved flat bars. Microstructure tests were conducted with the use of optical and electron microscopes. The mechanical properties of the tested materials are presented in the paper together with the advantages of the achieved alloys. It was possible to determine the possible further research directions connected with this material.

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Periodical:

Solid State Phenomena (Volume 246)

Pages:

240-243

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.246.240

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Online since:

February 2016

Authors:

Agata Mrugała, Dariusz Kuc

Keywords:

KOBO Metod, Magnesium - Lithium Alloy, Material Extrusion, Microstructure

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References

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