Contenuti:
PART 1: TEXTILE STRUCTURE AND MOISTURE TRANSPORT
CHARACTERIZING THE STRUCTURE AND GEOMETRY OF FIBROUS MATERIALS, N. Pan and Z. Sun
Geometrical Characterization of Single Fiber
Basic Parameters for Porous Media
Characterization of Fibrous Materials
Mathematical Descriptions of the Anistrophy of a Fibrous Material
The Pore Distribution in a Fibrous Material
Structural Analysis of Fibrous Materials with Special Fiber Orientations
Determination of the Fiber Orientation
The Packing Problem
References
UNDERSTANDING THE THREE-DIMENSIONAL STRUCTURE OF FIBROUS MATERIALS USING STEREOLOGY, D. Lukas
Introduction
Basic Stereological Principles
Sterology of Two-Dimensional Fibrous Mass
Sterology of Three-Dimensional Fibrous Mass
Sources of Further Information and Advice
References
THE ESSENTIALS OF MOISTURE TRANSPORT IN TEXTILES, N. Pan and Z. Sun
Introduction
Essentials of Psychometry
Moisture in a Medium and the Moisture Sorption Isotherm
Wettability of Different Material Types
Mathematical Description of Moisture Sorption Isotherms
References
SURFACE TENSION, WETTING, AND WICKING IN TEXTILES, W. Zong
Introduction
Wetting and Wicking
Adhesive Forces and Interactions Across Interfaces
Surface Tension, Curvature, Roughness, and Their Effects on Wetting Phenomena
Summary
References
WETTING PHENOMONA IN TEXTILE FIBRES, R.S. Rengasamy
Introduction
Surface Tension
Curvature Effects on Surfaces
Capillarity
Surface Roughness of Solids
Hysterisis Effects
Meniscus
Instability of Liquid Flow
Morphological Transitions of Liquid Bodies in Parallel Fiber Bundles
Sources of Further Information and Advice
Acknowledgements
References
THE DYNAMICS OF SORPTION BEHAVIOR IN TEXTILES, N. Pan and Z. Sun
Introduction
Fundamentals
Complete Wetting of Curved Surfaces
Liquid Spreading Dynamics on a Solid Surface
Rayleigh Instability
Lucas-Washburn Theory and Wetting of Fibrous Media
Understanding Wetting and Liquid Spreading
References
PART 2: HEAT-MOISTURE INTERACTIONS IN TEXTILE MATERIALS
THERMAL CONDUCTION AND MOISTURE DIFFUSION IN FIBROUS MATERIALS, Z. Sun and N. Pan
Introduction
Thermal Conduction Analysis
Effective Thermal Conductivity for Fibrous Materials
Prediction of ETC by Thermal Resistance Network
The Structure of Weave Woven Fabric Composites and Corresponding Unit Cell
Prediction of ETC by Volume Averaging Method
The Homogenization Method
Moisture Diffusion
Future Research
The Sensory Contact Thermal Conduction of Porous Materials
References
CONVECTION AND VENTILATION IN FABRIC LAYERS, N. Ghaddar, K. Ghali, and B. Jones
Introduction
Estimation of Ventilation Rates
Heat and Moisture Transport Modelling in Clothing by Ventilation
Heat and Moisture Transport Results of the Periodic Ventilation Model
Extension of Model to Real Limb Motion
Nomenclature
References
MULTIPHASE LIQUID-GAS FLOW IN TEXTILE MATERIALS, P. Gibson
Introduction
Nomenclature
Mass and Energy Transport Equations
Total Thermal Energy Equation
Thermodynamic Relations
Mass Transport in the Gas Phase
Gas Phase Convective Transport
Liquid Phase Convective Transport
Summary of Modified Transport Equations
Comparison with Previously Derived Equations
Conclusions
References
ANALYZING GAS FLOW IN TEXTILE MATERIALS USING LATTICE APPROACH, D. Lukas
Introduction
Discrete Molecular Dynamics
Typical Lattice-Gas Automata
Computer Simulation of Fluid Flows through Porous Materials
Sources of Further Information and Advice
References
MOISTURE CONDUCTION AND EVAPORATION IN TEXTILE MATERIALS, K. Ghali, N. Ghada, and B. Jones
Introduction
Modelling Condensation/Evaporation in Thin Clothing Layers
Modelling Condensation/Evaporation in Fibrous Medium
Effect of Fabric Physical Properties on the Condesation/Evaporation Process
Modelling Heating and Moisture Transfer in PCM Fabrics
Conclusions
References
HEAT-MOISTURE INTERACTIONS AND PHASE CHANGE IN FIBROUS MATERIALS, K. Ghali, N. Ghada, and B. Jones
Introduction
Moisture Regain and Equilibrium Relationships
Sorption and Condensation
Mass Heat Transport Processes
Modelling of Coupled Heat and Moisture Transport
Consequences of between Heat and Moisture Interactions
References
PART 3: TEXTILE-BODY INTERACTIONS AND MODELLING ISSUES
HEAT AND MOISTURE TRANSFER IN TEXTILES FOR INSULATION, Y. Li and J. Fan
Nomenclature
Introduction
Experimental Investigations
Theoretical Models
Numerical Simulation
Conclusions
References
COMPUTER SIMULATION OF MOISTURE TRANSPORT IN FIBROUS MATERIALS, D. Lukas, N. Pan, and P. Gibson
Introduction
Auto-Models
Computer Simulation
Sources of Further Information and Advice
References
COMPUTER MODELLING OF HEAT AND MASS TRANSPORT IN PROTECTIVE CLOTHING, P. Gibson, J. Barry, R. Hill, M. Sobera, and C. Kleijn
Introduction
Material Modelling
Example of Material Modelling
Modelling of Fabric-Covered Cylinders
Full-Body Modelling
Conclusions
References
UNDERSTANDING THE BODY'S THERMOREGULATORY SYSTEM, E. Arens
Introduction
Body-Environment Exchange
Skin
Heat Exchange from the Skin Surface
Moisture Exchange from the Skin Surface
Typical Skin Temperatures
Sensation and Comfort
Modelling Human Thermal Regulation and Comfort
References
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