Thermal And Time Stability Of Amorphous Alloys
by A. M. Glezer /
2017 / English / PDF
2.6 MB Download
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.
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 book will be useful to students, postgraduate students and
researchers who are interested in creating new advanced materials
and methods of expanding the temperature and time interval of
their practical use.
The book will be useful to students, postgraduate students and
researchers who are interested in creating new advanced materials
and methods of expanding the temperature and time interval of
their practical use.