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Micro and Nanophased Polymeric Composites. Durability Assessment in Engineering Applications. Woodhead Publishing Series in Composites Science and Engineering

  • Book

  • June 2024
  • Elsevier Science and Technology
  • ID: 5927157

Micro and Nanophased Polymeric Composites: Durability Assessment in Engineering Applications provides a comprehensive review of in-service environmental damage and degradation studies of FRP composites in a broad range of different applications. End-users such as academic and industrial researchers and materials scientists and engineers working in the design, analysis, and manufacture of composite material systems will be able to identify the possible superior advantages and limitations of FRP composites in various applications. Particular emphasis is given on the identification of various failure micro-mechanisms leading to unprecedented failure in different harsh and hostile environments.

Divided into two distinct parts, the first section focuses on fundamentals, with key chapters on the main constituents of FRP composites, mechanical properties, characterization techniques, and processing and fabrication techniques. Part two focuses on polymer composites under different in-service applications, including the marine and space environment, chemical and corrosive environments, high and low temperature environments, and other critical environments.

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Table of Contents

PART A Fundamentals of polymeric composites
1. Introduction to fiber-reinforced polymer composite materials
2. Constituents of fiber-reinforced polymer composites
3. Fundamentals of mechanical properties of fiber-reinforced composites
4. Characterization techniques for polymer composites
5. Processing and fabrication techniques of conventional and nanofiller-modified fiber-reinforced polymer composites

PART B Polymer composites under different in-service applications
6. Marine applications
7. Space applications
8. Chemical and corrosive environments
9. High- and low-temperature applications
10. Performance of composite joints
11. Some other critical applications
12. Unprecedented failure of fiber-reinforced polymer composites

Authors

Bankim Chandra Ray Professor, Metallurgical and Materials Engineering Department, National Institute of Technology, Rourkela, India.

Professor Ray is currently "Prof. S. S. Pani Chair Professor� at the Metallurgical and Materials Engineering Department, National Institute of Technology (NIT), Rourkela, India. He has been working at NIT Rourkela since 1989. Prof. Ray's research centres on the impact of extreme environmental conditions on fibre-reinforced polymer (FRP) composites. Dr. Ray has been selected by UNESCO and the Australian Expert Committee for Industries in the Asia-Pacific region based on SCI. He has been serving as a technical advisor to TATA Steel Limited (New Materials Business). He has been serving as the editor of a SCI Journal-Transactions of the Indian Institute of Metals (TIIM) Journal. Prof. Ray holds many distinguished chairs in reputed institutions and committees across the country. He has also supervised 20 PhD scholars. Prof. Ray has published more than 175 SCI Journals and 7 Books (CRC, Elsevier, Springer and Wiley publishing houses), and involved in 25 sponsored projects & consultancy services from various government and leading private industries.

Rajesh Kumar Prusty Assistant Professor, Metallurgical and Materials Engineering Department, National Institute of Technology, Rourkela, India.

Dr. Prusty is working on the development of advanced multiphase composites for improved delamination resistance and for diversified engineering applications. He is involved in 6 sponsored/consultancy projects from various public and private agencies such as NRB (DRDO), CSIR, SERB, TEQIP-NITR, Tata Steel. He has published more than 100 Scopus indexed articles and 2 books.

Dinesh Kumar Rathore Department of Mechanical Engineering, Malaviya National Institute of Technology, Jaipur, India. Dr. Rathore's Ph. D investigation is based on the mechanical performance evaluation of hybrid fiber reinforced composites under elevated temperatures. He has authored more than 20 research/review articles on the mechanical performance assessment of fibrous polymeric composites under different environments in high impact composite journals. His research interest lies in the design and development of multiscale fibrous polymeric composites for naval, aerospace, and chemical industries. He has also co-authored a book on fibrous polymeric composites environmental degradation and damage published by CRC Press, Taylor and Francis Group. Sohan Kumar Ghosh Materials Design Division, Department of Physics, Chemistry and Biology, Link�ping University, Sweden. Mr. Ghosh has academic research experience spanning across the different facets of FRP nanocomposites with particular focus on their environmental durability. Besides, he holds industrial experience in the manufacturing and laboratory characterization of FRP composites. His current research efforts are directed towards the development of novel nano-scale materials and nanocomposites for different sustainable applications. Abhijeet Anand Metallurgical and Materials Engineering Department, National Institute of Technology Rourkela, Odisha, Rourkela, India. Mr. Anand's Master thesis was on marine application of Graphene Oxide embedded GFRP composites. He has also worked on various short projects during his master's degree such as development of electrophoretic deposition apparatus for fiber surface modification and on lifetime prediction of fiber reinforced polymer composites.