Thermal and Time Stability of Amorphous Alloys
Auteurs : Glezer A. M., Potekaev A. I., Cheretaeva A. O.
This reference is dedicated to the problem of time-temperature stability of amorphous (non-crystalline) metal alloys with strongly nonequilibrium structure and unique physical and mechanical properties that are obtained by quenching from the melt at a rate that exceeds one millions of degrees c.o.s. second. As a stability test, the behavior of the plasticity of amorphous alloys is studied. The book examines the fundamental characteristics of amorphous alloys, the basic laws of structural relaxation, generalized information about the phenomenon of the ductile-brittle transition (temper embrittlement), the development of physically justified methods of predicting the stability of the properties, and provides information about the attempts of controlling the structure for the purpose of suppressing or deceleration of the ductile-brittle transition and, as a consequence, increasing the temperature and temporal stability of the amorphous state.
The Main Characteristics of Amorphous Alloys. Structural Relaxation. The Physical Nature of ΔT-Effect. The Ductile–Brittle Transition Phenomenon. Physical Criteria for Predicting Thermal and Time Stability. Methods for Increasing Thermal and Time Stability.
A. M. Glezer, A. I. Potekaev, A. O. Cheretaeva
Date de parution : 06-2020
15.6x23.4 cm
Date de parution : 08-2017
15.6x23.4 cm
Disponible chez l'éditeur (délai d'approvisionnement : 14 jours).
Prix indicatif 232,80 €
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Mots-clés :
Amorphous Alloys; Compositional Short Range Order; Ductile Brittle Transition; Bulk Metallic Glass; Ribbon Specimens; Structural Relaxation; Amorphous Matrix; Melt Quenching; Excess Free Volume; amorphous materials; Amorphous Ribbon Alloys; Low Temperature Heat Treatment; temper embrittlement; Shear Bands; plasticity; Temper Brittleness; temperature and time interval; Amorphous Ribbons; A; I; Potekaev; Uniaxial Tensile Loading; A; O; Cheretaeva; Ductile Brittle Transition Temperature; Stress Concentration Factor; Isochronous Annealing; Preliminary Annealing; Free Volume; Surface Active Elements; LTT; BCC Phase; Low Temperature Relaxation; Total Structural Factor