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Books by Keyword: Squeeze Mode
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Edited by:
Andrzej Kot
Online since: July 2011
Description: Volume is indexed by Thomson Reuters BCI (WoS).
Attention is focused here on the materials group known as “smart” e.g. Shape Memory Alloys (SMA) and piezoelectrics. The Department of Process Control at the University of Science and Technology carries out leading research in the general area of control engineering. Within this field, scientists from the department also work on the implementation of control theory in materials processing; especially with regard to influencing material properties and optimizing manufacturing processes. Instead of exploiting the principles of control theory for materials use, some researchers use materials-related phenomena for control purposes. The present work offers an informative introduction to this interesting field.
Attention is focused here on the materials group known as “smart” e.g. Shape Memory Alloys (SMA) and piezoelectrics. The Department of Process Control at the University of Science and Technology carries out leading research in the general area of control engineering. Within this field, scientists from the department also work on the implementation of control theory in materials processing; especially with regard to influencing material properties and optimizing manufacturing processes. Instead of exploiting the principles of control theory for materials use, some researchers use materials-related phenomena for control purposes. The present work offers an informative introduction to this interesting field.
Edited by:
Marcin Leonowicz and Dariusz Oleszak
Online since: April 2009
Description: Smart Materials are ones that can respond to environmental stimuli by exhibiting changes in properties (mechanical or physical), structure, composition or function.
Volume is indexed by Thomson Reuters CPCI-S (WoS).
The growing interest in their development is driven by emerging applications and by the integration of smart materials into industrial systems for civilian, industrial, medical and military applications. Among them are composite multiferroic materials which exhibit two or more ferroic features such as ferromagnetism/magnetostriction, ferroelectricity/piezoelectricity or ferroelasticity/shape-memory effects due to their unusual responses: including very large magneto-electric susceptibility, giant magnetostriction and energy-coupling coefficients which approach unity. Other systems include shape-memory and magnetic shape-memory alloys, magnetostrictive materials, magnetorheological fluids and polymers.
Volume is indexed by Thomson Reuters CPCI-S (WoS).
The growing interest in their development is driven by emerging applications and by the integration of smart materials into industrial systems for civilian, industrial, medical and military applications. Among them are composite multiferroic materials which exhibit two or more ferroic features such as ferromagnetism/magnetostriction, ferroelectricity/piezoelectricity or ferroelasticity/shape-memory effects due to their unusual responses: including very large magneto-electric susceptibility, giant magnetostriction and energy-coupling coefficients which approach unity. Other systems include shape-memory and magnetic shape-memory alloys, magnetostrictive materials, magnetorheological fluids and polymers.
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