Biomechanical engineering of textiles and clothing
著者
書誌事項
Biomechanical engineering of textiles and clothing
(Woodhead Publishing in textiles)
Woodhead Publishing in association with the Textile Institute , CRC Press, 2006
- : Woodhead
- : CRC
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注記
Includes bibliographical references and index
内容説明・目次
- 巻冊次
-
: CRC ISBN 9780849390944
内容説明
Biomechanical engineering enables wearers to achieve the highest level of comfort, fit and interaction from their clothing as they are designed with the mechanics of the body in mind. This enables products to be developed that are specifically designed for the mechanics of their end purpose (e.g. sports bra) as well as the everyday movement of the body. This is the first book to systematically describe the techniques of biomechanical engineering principles, methods, computer simulation, measurements and applications.
Biomechanical Engineering of Textiles and Clothing addresses issues of designing and producing textiles and clothing for optimum interaction and contact with the body. It covers the fundamental theories, principles and models behind design and engineering for the human body's biomechanics, contact problems arising between textiles/clothing and the body and the mechanics of fibers, yarns, textiles and clothing. Material properties are discussed in relation to mechanical performance. It also includes coverage of the Clothing Biomechanical Engineering System developed at The Hong Kong Polytechnic University and its associated models and databases. The book concludes with practical examples of clothing applications to illustrate how to carry out biomechanical engineering design for specific applications.
目次
INTRODUCTION, Y. Li, X. Zhang, and X-Q Dai
Background
History of Clothing Biomechanical Engineering Design
Biomechanical Engineering Design for Fashion Products
Fundamental Frameworks in Clothing Biomechanical Engineering
Clothing Biomechanical Engineering Design System: An Example
Outline of the Book
Acknowledgment
References
PART 1 THEORETICAL BACKGROUND
Fiber Mechanics, X.-Q. Dai and Y. Li
Introduction
Fiber Morphology
Mechanical Behaviors
Modeling of Fiber Mechanical Properties
Conclusion
Acknowledgement
References
Yarn Mechanics, K-F.F. Choi
Introduction
Yarn Modeling
Theoretical Modeling of Single Yarn
Conclusion
References
Fabric Mechanics, X.-Q. Dai, K.-F.F. Choi and Y. Li
Introduction
Woven Fabrics
Knitted Fabric
Conclusion
Acknowledgement
References
Clothing Mechanics, X.-Q. Dai and Y. Li
Introduction
Characteristics of Clothing Deformation
Clothing Modeling
Conclusion
Acknowledgement
References
Human Body, A. Luximon, and M. Zhang
Introduction
Definitions and Anatomical Landmark
Skeletal System
Muscular-Skeletal System
Overview of Other Systems
Anthropometry
Range of Motion
The Human Skin and Temperature Regulation
Conclusion
References
Mechanics of Human Skin and Underlying Soft Tissues, M. Zhang and J.T-M Cheung
Introduction
Mechanical Characteristics of Human Skin Models of Mechanical Properties for Soft Tissues
References
Contact Mechanics in Garment Wearing, X.-Q. Dai, Y. Li, and X. Zhang
Contact Problem Involved in Garments
Contact Mechanics
Contact Detection
Contact Response
Conclusion
Acknowledgement
References
Clothing Comfort and Compression Therapy, Y. Li and X.-Q. Dai
Clothing Comfort
Compression Therapy
Conclusion
Acknowledgement
References
PART 2 MATERIAL PROPERTIES
Fibers, X.-Q. Dai
Textile Fibers
Structure Parameters and Measurement
Fiber Mechanical Properties
Conclusion
Acknowledgment
References
Yarns, C.K. Faith
Introduction
General View on Today's Yarns
Yarn Structural Properties
Yarn Mechanics
Degree of Fibre Interlacing and Abrasion Resistance
Conclusion
References
Fabrics, Y. Li and X.-Q. Dai
Characteristics and Classification of Fabrics
Fabric Construction Measurement
Basic Mechanical Properties and Their Measurements
Measurement of Mechanical Poperties in Complex Deformation
Conclusion
Acknowledgement
References
Human skin, M. Zhang and J.T.-M. Cheung
Biomechanical Testing of Human Skin
Frictional Properties of Human Skin
Conclusions
References
PART 3 CLOTHING BIOMECHANICAL ENGINEERING DESIGN SYSTEM (CBED)
Integration of Mechanical Models into Numerical Simulations, Y. Li, X.-Q. Dai
Hierarchical Modeling of Textile Products
Components of the Mechanical Simulation System
Numerical Simulation Systems
Conclusion
Acknowledgement
References
Database for CBED, R.-M. Wang and Y. Li
Characteristics of Database for Engineering Design
Functional Requirement of Database for Clothing Engineering Design
The Constitution of the Clothing Engineering Design
Database Design and Realization
Examples
Conclusion
Acknowledgement
References
Preparing for the Mechanical Simulation, R.-M. Wang, X.-Q. Dai, and Y. Li
Introduction
Preparing Geometrical Models
Definition of Various Conditions
Examples
Conclusion
Acknowledgement
References
Visualization for Mechanical Analysis, Y. Li, R.-M. Wang, X.-Q. Dai, and X. Zhang
Understanding the Role of the Visualization Module
Methods of Visualization
Post-Processing: An Example
Conclusion
Acknowledgement
References
PART 4 APPLICATIONS IN CLOTHING BIOMECHANICAL ENGINEERING
Biomechanical Engineering of Jeans, X. Zhang, Y. Li and A. Wong
Introduction
Biomechanical Modeling
Computational Experiments
Application in Jeans Design
Acknowledgment
References
Biomechanical Engineering of Sports Bra, Y. Li, X. Zhang, and K.W. Yeung
Design of Sports Bra
Biomechanical Modeling
Biomechanical Analysis
Validation of the Model
Conclusion
Acknowledgments
References
Biomechanical Engineering of Compression Stockings, X.-Q. Dai, Y. Li, R. Liu and Y.L. Kwok
Introduction
Biomechanical Simulation
Analysis and Discussion
Investigation of the Mechanism of Compression Therapy
Conclusion
Acknowledgement
References
Biomechanical Engineering Design of Socks, Y. Li, X.-Q. Dai, M. Zhang and J.T-M Cheung
Introduction
Biomechanical Modeling
Implications in Sock Design
Acknowledgement
References
Biomechanical Engineering of Footwear, A. Luximon and M. Zhang
Introduction
Human Foot
Footwear
Foot and Footwear Interface
Biomechanical Model
Conclusion
References
Biomechanical Engineering of Aerobic Sportswear, A. Wong, Y. Li, E. Newton and X. Zhang
Introduction
Biomechanical Modeling
Physical Properties of Aerobic Wear
Biomechanical Simulation
Validation of the Model
Conclusion
References
- 巻冊次
-
: Woodhead ISBN 9781845690526
内容説明
Biomechanical engineering enables wearers to achieve the highest level of comfort, fit and interaction from their clothing as it is designed with the mechanics of the body in mind. This enables products to be developed that are specifically designed for the mechanics of their end purpose (e.g. sports bra) as well as the everyday movement of the body. This is the first book to systematically describe the techniques of biomechanical engineering principles, methods, computer simulation, measurements and applications.Biomechanical engineering of textiles and clothing addresses issues of designing and producing textiles and clothing for optimum interaction and contact with the body. It covers the fundamental theories, principles and models behind design and engineering for the human body's biomechanics, contact problems arising between textiles/clothing and the body and the mechanics of fibres, yarns, textiles and clothing. Material properties are discussed in relation to mechanical performance. It also includes coverage of the Clothing Biomechanical Engineering System developed at The Hong Kong Polytechnic University and its associated models and databases. The book concludes with practical examples of clothing applications to illustrate how to carry out biomechanical engineering design for specific applications.
目次
- Part 1 Introduction: Textile biomechanical engineering. Part 2 Theoretical background: Fiber mechanics
- Yarn mechanics
- Fabric mechanics
- Clothing mechanics
- Human body
- Mechanics of human skin and underlying soft tissues
- Contact mechanics in garment wearing
- Clothing comfort and compression therapy. Part 3 Material properties: Fibers
- Yarns
- Fabrics
- Human skin. Part 4 Clothing biomechanical engineering design system (CBED): Integration of mechanical models into numerical simulations
- Database for biomechanical engineering design
- Preparing for the mechanical simulation
- Visualization for the mechanical analysis. Part 5 Applications in product development: Biomechanical engineering of jeans
- Biomechanical engineering of sports bras
- Biomechanical engineering of compression stockings
- Biomechanical engineering of socks
- Biomechanical engineering of footwear
- Biomechanical engineering of aerobic sportswear.
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