购买选项

Kindle电子书价格: ¥392.29

这些促销将适用于该商品:

部分促销可以同时享受;部分促销不可与其他促销同时享受。更多详情请查看促销条款。

发送至您的Kindle设备或Kindle阅读软件

发送至您的Kindle设备或Kindle阅读软件

“Firefighters' Clothing and Equipment: Performance, Protection, and Comfort (English Edition)”,作者:[Guowen Song, Faming Wang]

Firefighters' Clothing and Equipment: Performance, Protection, and Comfort (English Edition) 1第一 版本, Kindle电子书


|
分享
分享
广告
显示所有 格式和版本 隐藏其他格式和版本
亚马逊价格
全新品最低价 非全新品最低价
Kindle电子书
¥392.29

商品描述

作者简介

Guowen Song received his PhD degree in textile engineering, chemistry and science, at College of Textiles, North Carolina State University in North Carolina, USA. Currently he is Noma Scott Lloyd Chair professor in Department of Apparel, Event and Hospitality Management, Iowa State University. Guowen's academic interest is on textile material and clothing for human safety and health. His work involves modeling studies of textile materials, protective clothing, development of devices and test protocols and analysis of textile and clothing performance. With the existing developed facilities, his efforts are to develop a unique research program that will improve clothing function and performance. His research aims to develop new textile materials and clothing systems through understanding mechanisms and fundamentals associated with heat and mass transfer between human body, clothing and environment. These studies include application of instrumented manikins and human subjects and 3D body scanning technology. Dr. Song has published over 80 scientific papers in refereed journals and conference proceedings. He has edited several books and contributed dozen chapters in textile related books. Faming Wang is currently an Assistant Professor in Clothing Technology at Institute of Textiles and Clothing (ITC) of The Hong Kong Polytechnic University. He earned his Lic. Phil. and Ph.D. degrees from Lund University (Sweden) under the supervision of world renowned physiologist Prof. Ingvar Holmer. After his Ph.D. training, Dr. Wang joined Eidgoessische Materialprufungs-und Forschungsanstalt (EMPA- Swiss Federal Laboratories for Materials Science and Technology, the ETH Domain, Switzerland) as Marie-Curie Fellow. He later became a Full Professor (the youngest full professor in Textiles & Clothing in the history in Mainland China) in Apparel Design & Engineering at Soochow University (Suzhou, China) in Oct. 2013 and there he established Laboratory for Clothing Physiology and Ergonomics (LCPE), a multi-disciplinary research group for the study of thermal interaction of the human body-clothing-environment system. To date, he has authored and co-authored >200 journal publications, conference papers/presentations, technical reports, books/chapters and patents. His published work has been cited >1,000 times and this gave him an h-index of 19 (Google Scholar, as of April 2018). In addition, he serves as the editorial member for several journals including Journal of Thermal Biology (a JCR-Q1 journal). He is also a founder member of Asian Society of Protective Clothing (ASPC). --此文字指其他 kindle_edition 版本。

目录

1. Textiles for Firefighting Protective Clothing Introduction Fibres used in firefighting protective clothing Membranes developed for protective clothing Fabric structure and nonwovens Chemical finishing Thermal protective properties Thermal comfort properties Summary References 2. Firefighters Protective Clothing and Equipment 2.1 Introduction 2.2 Types and features of firefighters' protective clothing 2.3 Types and features of firefighters' protective equipment 2.4 Key issues related to firefighters protective clothing and equipment 2.5 References 3 Human thermoregulation system and comfort 3.1 Body temperature 3.2 Thermal Comfort 3.3 Sensorial comfort 3.4 Movement comfort 3.5 Conclusions 3.6 References 4. Protective Performance of Firefighters' Clothing 4.1 Introduction 4.2 Evaluation and assessment of the protective performance of fabrics and clothing under thermal hazards 4.3 Evaluation and assessment of the protective performance of fabrics and clothing under non-thermal hazards 4.4 Key issues related to the protective performance of firefighters' clothing 4.5 Summary and Conclusions 4.6 References 5. Stored thermal energy and protective performance 5.1 Introduction 5.2 Relationship between transmitted and stored thermal energy 5.3 Evaluation method and standard related to stored thermal energy and protective performance 5.4 Influence factors of transmitted and stored thermal energy 5.5 Future trends 5.6 References 6. Functionality and Thermo physiological Comfort of Firefighter Protective Clothing: A Case Study 6.1 Introduction 6.2 Materials and Material Structures 6.3 Material Attributes Relevant to Thermal Comfort 6.4 Use of Absorbent Materials for Improved Comfort 6.5 Effect of surface characteristics of inner layer fabrics on comfort 6.6 Effect of surface characteristics of lightweight fibre blended fabrics on comfort 6.7 Garment Fit and Comfort 6.8 Conclusions 6.9 References 7. Hot plates and thermal manikins for evaluating clothing thermal comfort 7.1 Introduction 7.2 Hot plate 7.3 Thermal manikins 7.4 Applications 7.5 Conclusions 7.6 References 8. Human wear trials for assessing comfort performance of firefighter protective clothing 8.1 Background 8.2 Comfort performance evaluation of firefighting clothing 8.3 Human trial case studies on firefighting protective clothing 8.4 Conclusions 8.5 References 9. 3D body scanning technology and applications in protective clothing 9.1 Introduction to recent development of 3D body scanning technology 9.2 Clothing air gap and contact area 9.3 Effect of air gap on clothing thermal performance 9.4 Summary 9.5 References 10. Instrumented Flash Fire Manikin for Maximizing Protective Clothing Performance 10.1 History of Flash Fire Manikin System 10.2 Combustion Chambers and Simulated Fire 10.3 Thermal Sensors Employed in Manikin System 10.4 Standards 10.5 Application and models of flash fire manikins 10.6 Summary 10.7 References 11. Smart firefighting clothing 11.1 Introduction 11.2 Sensors for firefighter's health state monitoring 11.3 Sensors for monitoring of environmental parameters and firefighter's location 11.4 Communication in smart firefighting clothing 11.5 Wireless Body Area Sensor Network within smart firefighting clothing 11.6 Challenges 11.7 Conclusions 11.8 References 12. Numerical modelling for heat and moisture transfer through firefighting protective clothing 12.1 Introduction 12.2 Heat and moisture transfer mechanism 12.3 Numerical models of heat and moisture transfer in protective clothing 12.4 Modelling of skin heat transfer and burn prediction 12.5 Conclusions and future trend 12.6 References --此文字指其他 kindle_edition 版本。

基本信息

  • ASIN ‏ : ‎ B07LGZQ1TW
  • 出版社 ‏ : ‎ CRC Press; 第 1st 版 (2018年12月7日)
  • 出版日期 ‏ : ‎ 2018年12月7日
  • 语言 ‏ : ‎ 英语
  • 文件大小 ‏ : ‎ 59089 KB
  • 同步设备使用情况: ‏ : ‎ 根据出版商限制,最多 4 台同步设备
  • 标准语音朗读 ‏ : ‎ 未启用
  • X-Ray ‏ : ‎ 未启用
  • 生词提示功能 ‏ : ‎ 未启用
  • 纸书页数 ‏ : ‎ 372页

无顾客评论

5 星 (0%) 0%
4 星 (0%) 0%
3 星 (0%) 0%
2 星 (0%) 0%
1 星 (0%) 0%

评论该商品

与其他买家分享您的想法