Thermal Schock Fatigue Process Induced Magnetic Anisotropy

István Mészáros; János Ginsztler

doi:10.4028/www.scientific.net/MSF.537-538.419

Paper Titles

Color Etching for Characterization the Grain Orientation in Spheroidal Graphite Cast Iron
p.389

The Effect of Microstructure on the Wear Phenomena
p.397

The Sodium Transport in Polycrystalline Alumina
p.405

Development of a Novel Vibrating Sample Magnetometer
p.413

Thermal Schock Fatigue Process Induced Magnetic Anisotropy
p.419

Mechanical Testing of Tendon
p.425

Welding Investigations of Modern High Strength Dual Phase and TRIP-Steel for Automotive Industry Application
p.431

Prediction of Fullerene Stability Using Topological Descriptors
p.439

Coronary Stents’ Materials and Examinations of Surface and Expansion Features
p.449

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Thermal Schock Fatigue Process Induced Magnetic Anisotropy

Abstract:

In this work the magnetic anisotropy of the 15Mo3 type steel was investigated which was induced by deterioration process caused by thermal shock fatigue. The applied thermal shock fatigue investigation can model the material degradation due to long term service in high temperature environment. The 15Mo3 steel is widely used as reheating pipeline base material of power plant boilers. Magnetisation curves were measured to characterise the induced magnetic anisotropy due to thermal shock fatigue process. A parallel motion vibrating sample magnetometer (PMVSM) which was designed at the Department of Materials Science and Engineering of BUTE was used for the magnetic measurements.