Optimization of process parameters for developing FeCoSiB amorphous microwires through in-rotating-water quenching technique

Sarkar, Partha and Roy, Rajat K and Panda, A K and Mitra, A (2013) Optimization of process parameters for developing FeCoSiB amorphous microwires through in-rotating-water quenching technique. Applied Physics A Materials Science & Processing, 111 (IF-1.630). pp. 575-580.

Full text not available from this repository.

Abstract

The effects of process parameters for the in rotating- water quenching technique have been investigated with respect to structural, magnetic and giant magnetoimpedance (GMI) properties of FeCoSiB alloy microwires. Continuous and ductile amorphous wires have been found with the optimization of process parameters. The structural, magnetic and GMI behaviors have been evaluated as a function of wire diameter. The crystallinity of the wires increases with wire diameter, affecting soft magnetic and GMI properties. Consequently, it is found that the wire of 110 µm diameter shows superior soft magnetic and GMI properties.

Item Type:Article
Official URL/DOI:http://download.springer.com/static/pdf/192/art%25...
Uncontrolled Keywords:Amorphous wire, GMI properties, FeCoSiB alloy, Processing parameters
Divisions:Material Science and Technology
ID Code:6484
Deposited By:Dr Rajat Roy
Deposited On:24 Mar 2013 14:44
Last Modified:16 Aug 2013 12:49
Related URLs:

Repository Staff Only: item control page