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Nano-scaled and smart materials / A.K. Haghi and G.E. Zaikov.

By: Contributor(s): Material type: TextTextSeries: Nanotechnology science and technology seriesPublisher: New York : Nova Science Publishers, [2011]Description: 1 online resourceContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781613247624
  • 1613247621
Subject(s): Genre/Form: Additional physical formats: Print version:: Nano-scaled and smart materialsDDC classification:
  • 620.1/1 22
LOC classification:
  • TA418.9.N35
Online resources:
Contents:
NANO-SCALED AND SMART MATERIALS ; NANO-SCALED AND SMART MATERIALS ; CONTENTS ; PREFACE ; MULTILAYERS ELECTROSPUN NANOFIBER WEB ; INTRODUCTION ; EXPERIMENTAL ; Electrospining and Laminating Process ; Nanofiber Web Morphology ; Measurement of Air Permeability ; RESULTS AND DISCUSSION ; Mechanical Properties of Multilayer Nano-Web ; Simulation of Nano-Web ; Fiber Diameter Measurement ; Manual Method ; Distance Transform ; Direct Tracking ; CONCLUSION ; REFERENCES ; PRACTICAL HINTS ON ELECTROSPINNING OF POLYMERIC NANOSIZED FIBERS ; 1. INTRODUCTION ; 1.1. Electrospinning Set Up.
2. EFFECT OF SYSTEMATIC PARAMETERS ON ELECTROSPUN NANOFIBERS 2.1. Solution Properties; 2.1.1. Viscosity ; 2.1.2. Solution Concentration ; 2.1.3. Molecular Weight ; 2.1.4. Surface Tension ; 2.1.5. Solution Conductivity ; 2.2. Processing Condition ; 2.2.1. Applied Voltage ; 2.2.2. Feed Rate ; 3. EXPERIMENTAL; 4. RESULT AND DISCUSSION ; CONCLUSION ; REFERENCES ; CHALLENGES AND OPPORTUNITIES IN ELECTRONIC TEXTILES ; 1. INTRODUCTION ; 2. EXPERIMENTAL ; 2.1. Materials ; 2.2. Sample Preparation ; 2.3. Instrumentation ; 2.3.1. Electrical Conductivity and Morphology Assessment.
2.3.2. Sensitivity Assessment 3. RESULTS AND DISCUSSION ; 3.1. Electrical Conductivity Analysis; 3.2. Sensitivity Analysis ; 3.2.1. Gauge Factor ; 3.2.2. Response Time ; 3.2.3. Linearity ; CONCLUSION ; REFERENCES ; SMART NANOTEXTILES ; 1. INTRODUCTION ; 2. EXPERIMENTAL ; 2.1. Materials ; 2.2. Sample Preparation ; 2.3. Instrumentation ; 2.3.1. Electrical Conductivity and Morphology Assessment ; 2.3.2. Sensitivity Assessment ; 3. RESULTS AND DISCUSSION ; 3.1. Electrical Conductivity Analysis ; 3.2. Sensitivity Analysis ; 3.2.1. Sensitivity ; 3.2.2. Response Time ; 3.2.3. Linearity ; CONCLUSION.
SMART FABRICS FOR MOTION CAPTURE CONCLUSION ; REFERENCES ; FINITE ELEMENT MODELING OF FGM PIEZOELECTRIC PLATES ; 1. INTRODUCTION ; 2. GOVERNING EQUATIONS ; 2.1. First Order Shear Deformation Theory for FGM Plate ; 2.2. Non-Linear Temperature Distribution through the Thickness ; 3. FINITE ELEMENT FORMULATION ; 4. SENSOR AND ACTUATOR EQUATIONS ; 5. RESULTS AND DISCUSSION ; CONCLUSION ; REFERENCES ; MOLECULAR DYNAMICS SIMULATION IN MODELING CARBON NANOTUBES ; 1. INTRODUCTION ; 2. EMPIRICAL POTENTIALS ; 2.1. General Structure of Potential Function ; 2.2.1. Pair-Wise Potentials.
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Electronic-Books Electronic-Books OPJGU Sonepat- Campus E-Books EBSCO Available

Includes bibliographical references and index.

Description based on print version record.

NANO-SCALED AND SMART MATERIALS ; NANO-SCALED AND SMART MATERIALS ; CONTENTS ; PREFACE ; MULTILAYERS ELECTROSPUN NANOFIBER WEB ; INTRODUCTION ; EXPERIMENTAL ; Electrospining and Laminating Process ; Nanofiber Web Morphology ; Measurement of Air Permeability ; RESULTS AND DISCUSSION ; Mechanical Properties of Multilayer Nano-Web ; Simulation of Nano-Web ; Fiber Diameter Measurement ; Manual Method ; Distance Transform ; Direct Tracking ; CONCLUSION ; REFERENCES ; PRACTICAL HINTS ON ELECTROSPINNING OF POLYMERIC NANOSIZED FIBERS ; 1. INTRODUCTION ; 1.1. Electrospinning Set Up.

2. EFFECT OF SYSTEMATIC PARAMETERS ON ELECTROSPUN NANOFIBERS 2.1. Solution Properties; 2.1.1. Viscosity ; 2.1.2. Solution Concentration ; 2.1.3. Molecular Weight ; 2.1.4. Surface Tension ; 2.1.5. Solution Conductivity ; 2.2. Processing Condition ; 2.2.1. Applied Voltage ; 2.2.2. Feed Rate ; 3. EXPERIMENTAL; 4. RESULT AND DISCUSSION ; CONCLUSION ; REFERENCES ; CHALLENGES AND OPPORTUNITIES IN ELECTRONIC TEXTILES ; 1. INTRODUCTION ; 2. EXPERIMENTAL ; 2.1. Materials ; 2.2. Sample Preparation ; 2.3. Instrumentation ; 2.3.1. Electrical Conductivity and Morphology Assessment.

2.3.2. Sensitivity Assessment 3. RESULTS AND DISCUSSION ; 3.1. Electrical Conductivity Analysis; 3.2. Sensitivity Analysis ; 3.2.1. Gauge Factor ; 3.2.2. Response Time ; 3.2.3. Linearity ; CONCLUSION ; REFERENCES ; SMART NANOTEXTILES ; 1. INTRODUCTION ; 2. EXPERIMENTAL ; 2.1. Materials ; 2.2. Sample Preparation ; 2.3. Instrumentation ; 2.3.1. Electrical Conductivity and Morphology Assessment ; 2.3.2. Sensitivity Assessment ; 3. RESULTS AND DISCUSSION ; 3.1. Electrical Conductivity Analysis ; 3.2. Sensitivity Analysis ; 3.2.1. Sensitivity ; 3.2.2. Response Time ; 3.2.3. Linearity ; CONCLUSION.

SMART FABRICS FOR MOTION CAPTURE CONCLUSION ; REFERENCES ; FINITE ELEMENT MODELING OF FGM PIEZOELECTRIC PLATES ; 1. INTRODUCTION ; 2. GOVERNING EQUATIONS ; 2.1. First Order Shear Deformation Theory for FGM Plate ; 2.2. Non-Linear Temperature Distribution through the Thickness ; 3. FINITE ELEMENT FORMULATION ; 4. SENSOR AND ACTUATOR EQUATIONS ; 5. RESULTS AND DISCUSSION ; CONCLUSION ; REFERENCES ; MOLECULAR DYNAMICS SIMULATION IN MODELING CARBON NANOTUBES ; 1. INTRODUCTION ; 2. EMPIRICAL POTENTIALS ; 2.1. General Structure of Potential Function ; 2.2.1. Pair-Wise Potentials.

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