Title

Abridgment Of Nano And Micro Length Scale Mechanical Properties Of Novel Mg-9Li-7Al-1Sn And Mg-9Li-5Al-3Sn-1Zn Alloys Using Object Oriented Finite Element Modeling

Keywords

Elastic modulus; Mg-Li based alloy; Micromechanics models; Object oriented finite element modeling (OOF2); Stress analysis

Abstract

In the recent years, magnesium-lithium (Mg-Li) alloys have attracted considerable attention/interest due to their high strength-to-density ratio and damping characteristic; and have found potential use in structural and biomedical applications. Here the mechanical behavior of novel Mg-9 wt.% Li-7 wt.% Al-1 wt.% Sn (LAT971) and Mg-9 wt.% Li-5 wt.% Al-3 wt.% Sn-1 wt.% Zn (LATZ9531) alloys is reported. Both, as cast and thermomechanically processed alloys have been studied which possess dual phase microstructure. Nanoindentation data have been utilized to envisage the elastic modulus of alloy via various micromechanics models (such as rule of mixtures, Voigt-Reuss, Cox model, Halpin-Tsai and Guth model) in order to estimate the elastic modulus. Object oriented finite element modeling (FEM) has been performed to predict stress distribution under tensile and compressive strain state. Close match between Halpin-Tsai model and FEM results show the abridgment of nano length scale property to evolution of microscopic stress distribution in novel LAT971 and LATZ9531 Mg-Li-Al based alloys.

Publication Date

6-5-2015

Publication Title

Journal of Alloys and Compounds

Volume

634

Number of Pages

24-31

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1016/j.jallcom.2015.02.066

Socpus ID

84923571213 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/84923571213

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