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Seyed Noureddin Mirnia

Academic rank: Assistant Professor
ORCID:
Education: PhD.
ScopusId:
Faculty: Science
Address:
Phone: 9117457437

Research

Title
Investigation the Al–Fe–Cr–Ti nano composites structures with using XRD and AFM techniques
Type
JournalPaper
Keywords
Nano composite; aluminum; sol–gel method and XRD; AFM techniques
Year
2012
Journal SADHANA-ACADEMY PROCEEDINGS IN ENGINEERING SCIENCES
DOI
Researchers Ali Bahari ، Aref Sadeghi Nick ، Mandana Roodbari ، Seyed Noureddin Mirnia

Abstract

The performance of multilayers has been widely investigated in metal/metal systems. Shrinking this system down to less than 10 nm dislocation blocking occurs. We should thus try to find a way to get a structure with less dislocation, and/or strain because low diffusivity ultra high vacuum chamber is the basic requirements for growing ultra thin films and nano scale materials. We used William–Hall relation based on Scherr equation in X-ray powder spectrum and drawn the stress– strain diagrams. It shows that Al–Fe–Cr–Ti composites have very low diffusivity and equilibrium solubility in Al (0.05 at.% Fe, >0.02 at.% Cr, and >0.3 at.% Ti). Al–Ti– Fe–Cr composite powders have also been prepared from sol–gel method starting from elemental powders at both ambient and elevated temperatures. The obtained results from XRD (X-ray Diffraction), AFM (Atomic Force Microscopy) and X-ray powder techniques indicate that nano-grains with 0.03 at %Cr can cause a reduction of leakage current through the SS chamber due to its amorphous structure.