Compressive Characteristics of AZ91 Containing Sn Alloy with the Microstructure

Tae Young Choi; Hyun Ju Jung; Dae Hwan Kim; Su Gun Lim

doi:10.4028/www.scientific.net/MSF.783-786.402

Paper Titles

Fabrication of Mg Alloy Single Crystals Containing Rare Earth Elements and their Mechanical Behavior
p.380

Development of New High-Strength and Heat-Resistant Mg-Zn-Y-X (X=Zr and Ag) Casting Alloys
p.384

Microstructure and Defect Structure Evolution in Ultra-Fine Grained MgAlZn Alloy
p.390

Effect of Plane Strain on the Microstructure and Texture of AZ31 Sheet with Various Reduction Ratios
p.396

Compressive Characteristics of AZ91 Containing Sn Alloy with the Microstructure
p.402

Investigation of Properties of CaO Added Wrought Mg-Zn-Y and Mg-Y-Zn Alloys
p.407

Degradation of Magnesium Alloys in Artificial Urine Solution for Urological Device Applications
p.413

Influence of Nd in Extruded Mg10Gd Base Alloys on Fatigue Strength
p.419

Effect of ZrB₂ Nanoparticle Addition: Nano-LPSO-Grain Structured Ultra-High Strength Mg-RE Alloy
p.425

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Compressive Characteristics of AZ91 Containing Sn Alloy with the Microstructure

Abstract:

The characteristics of AZ91 containing Sn alloy were investigated to understand the compressive behavior with the microstructure of the alloy in elevated temperature state. To change the microstructure, the alloys used for this study were fabricated by the permanent mould casting and cooling slope casting, respectively. The compression test of AZ91 containing Sn alloys was carried out at temperatures from R.T to 400°C and at strain rates from 1.67x10^-5 to 1.67x10^-3/s. Besides, in order to investigate the compressive characteristics of the alloys in the elevated temperature state, this alloys after compression test were performed by optical (OM) and results show that the compressive deformation behavior of AZ91 containing Sn alloy was affected by strain rate and deformation temperature as well as its microstructure under hot forming conditions. In the processing windows for the soundness evolution of the specimen in the compression process, the Mg alloy with a dendrite phase (by permanent mold casting) was narrower than that of the Mg alloy with a globular and fine phase (by cooling slope method).