Electrorheological material and device design and preparation / / Xiaopeng Zhao, Jianbo Yin and Hong Tang

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Autore:	Zhao Xiaopeng
Titolo:	Electrorheological material and device design and preparation / / Xiaopeng Zhao, Jianbo Yin and Hong Tang
Pubblicazione:	New York, : Nova Science Publishers, c2008
Edizione:	1st ed.
Descrizione fisica:	1 online resource (116 p.)
Disciplina:	620.1/1297
Soggetto topico:	Electrorheological fluids - Industrial applications
	Viscous flow - Automatic control
	Smart materials
	Damping (Mechanics)
Altri autori:	YinJianbo TangHong
Note generali:	Description based upon print version of record.
Nota di bibliografia:	Includes bibliographical references and index.
Nota di contenuto:	Intro -- ELECTRORHEOLOGICAL MATERIAL AND DEVICE DESIGN AND PREPARATION -- ELECTRORHEOLOGICAL MATERIAL AND DEVICE DESIGN AND PREPARATION -- CONTENTS -- PREFACE -- Chapter 1 DESIGN AND PREPARATION OF ELECTRORHEOLOGICAL MATERIALS -- 1. INTRODUCTION -- 2. ER MECHANISMS -- 2.1. Polarization Mechanism -- 2.2. Electric Double Layers and Water Bridge Model -- 2.3. Conduction Model -- 3. COMPONENTS OF ELECTRORHEOLOGICAL FLUIDS -- 4. DESIGN AND PREPARATION OF ER MATERIALS -- 4.1. ER Materials Based on Molecular and Crystal Structure Design -- 4.1.1. Inorganic ER Materials -- Aluminosilicates -- Carbonaceous -- Metal Oxide -- Mesoporous Molecular Sieve -- 4.1.2.Organic ER Materials -- Polymeric Semiconducting Material -- (2) Polymer with Polar Groups -- 4.2. ER Materials Based on Nanocomposite and Hybrid Design -- 4.2.1. MMT Based Nanocomposite ER Materials -- Polyaniline/MMT Nanocomposite -- Nanocrystallite Coated MMT Nanocomposite -- 4.2.2.Kaolinite Based Nanocomposite ER Materials -- Polar Liquid Interacted Kaolinite ER Material -- TiO2 Nanocrystal Coated Kaonite ER Material -- Polysaccharide/Kaolinite Hybrid ER Material -- 4.2.3.Mesoporous Silica Based Nanocomposite -- 4.3. Molecular-Scale Organic/Inorganic Hybrids -- 4.3.1.Polysaccharide / Titania Hybrid Gel -- 4.3.2.Glycerol/Surfactant/Titania Hybrid Gel -- Chapter 2 DESIGN AND MANUFACTURING OF ELECTRORHEOLOGICAL DEVICES -- 1. ELECTRORHEOLOGICAL SELF-COUPLED DAMPERS -- 1.1. Introduction -- 1.2. Working Principle of Self-Coupled ER Dampers -- 1.3.The First Generation Product: Adaptive ER-piezoceramic Damper -- 1.3.1.Spring-Direct-Pressing Type Damper [101] -- 1.3.2. Wedge-Push Type Damper [102] -- 1.3.3.Vibration Suppression Properties -- 1.4. The Second Generation Product: Self-Coupled ER Damper -- 1.4.1. Configuration of the Self-Coupled ER Damper [106].
	1.4.2. Vibration Properties of Dampers [107] -- 1.4.3.Theoretical Model for the Self-Coupled ER Damper [107] -- 2. FLEXIBLE SOUND-TUNABLE ER COMPOSITE LAYER -- 2.1. Introduction -- 2.2. Sound Tunable Characteristics of Flexible ER Layer [131] -- 2.3. Vibration-Radiation Model of the ER Layer [134] -- SUMMARY -- ACKNOWLEDGEMENTS -- REFERENCES -- INDEX -- Blank Page.
Sommario/riassunto:	Electrorheological (ER) fluid is a smart suspension, whose structure and theological properties can be quickly tuned by an external electric field. This character attracts high attentions in use of conventional and intelligent devices. In this book, the authors introduce new advances in design and preparation of ER materials based on two routes including molecular and crystal structure design and nanocomposite and hybrid design. They specially present some advanced preparation techniques, such as self-assembly, nanocomposite, hybrid, and so on, in order to achieve the design about physical and chemical properties of high-performance ER materials. Furthermore, they present new self-coupled dampers based on ER fluid and piezoelectric ceramic for vibration control, and a flexible sandwiched ER composite for sound transmission control. This new damper works depending on self-coupling effect between ER fluid and piezoelectric ceramic and does not need the external power supply.
Titolo autorizzato:	Electrorheological material and device design and preparation
ISBN:	1-61668-128-4
Formato:	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione:	Inglese
Record Nr.:	9910962384903321
Lo trovi qui:	Univ. Federico II
Opac:	Controlla la disponibilità qui

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