Rheological Inactivity of AIMgSi Conductors (AAAC) in Trend of Negative Stress Gradients

Beata Smyrak; Tadeusz Knych; Andrzej Mamala; Kinga Korzeń

doi:10.4028/www.scientific.net/MSF.765.808

Paper Titles

Investigation of the Microstructure and Bio-Corrosion Behaviour of Mg-Zn and Mg-Zn-Ca Alloys
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Tensile Strength of Al-Zr Overhead Line Conductors
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Peeling of Aluminium Tubes as an Efficient Method for Energy Absorption in Vehicle Front Structures
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In Vitro Evaluation of Degradation of Biodegradable Silane Based Coating on Mg-Zn-Ca Alloy in a Physiological Environment
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Rheological Inactivity of AIMgSi Conductors (AAAC) in Trend of Negative Stress Gradients
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Characterization of an Mg-2Zn-1Ca 1β-TCP Composite Fabricated by High Shear Solidification and ECAE
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Enhanced Battery Pack for Electric Vehicle: Noise Reduction and Increased Stiffness
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Effect of Precipitation Hardening on the Structure and Properties of Al-Mg-Si Conductor Alloys in Different Technological Routes
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Plasma Electrolytic Oxidation and Characterization of Spark Plasma Sintered Magnesium/Hydroxyapatite Composites
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HomeMaterials Science ForumMaterials Science Forum Vol. 765Rheological Inactivity of AIMgSi Conductors (AAAC)...

Rheological Inactivity of AIMgSi Conductors (AAAC) in Trend of Negative Stress Gradients

Abstract:

The authors of this paper present the research results of low temperature creep of AlMgSi (6101) wires and AAAC - All Aluminium Alloy Conductor. The conductor is made from AlMgSi wires (diameter 2.99 mm). Based on theoretical analysis it was proved that creep of an overhead conductors depends on the relation between stress and temperature of conductor and the span geometry. Thus the objective of the paper is to determine the wire and conductor creep under the conditions of stress drop. On the basis of the research it has been observed that the creep of both the AAAC conductor and the AlMgSi wires temporarily stopped.