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Self-Healing Construction Materials: Fundamentals, Monitoring and Large Scale Applications: Engineering Materials and Processes

Editat de Antonios Kanellopoulos, Jose Norambuena-Contreras
en Limba Engleză Hardback – 9 dec 2021
This book provides a thorough overview of all techniques for producing self-healing construction materials. Construction materials (cement-based, bituminous, metals, and alloys) are prone to cracking, which with the progress of time can lead to compromising of the structural integrity of critical infrastructure. Self-healing materials form a new class of materials that have inbuilt engineered properties to counteract damage and repair it before it becomes critical. The methods for monitoring, modeling, and assessing self-healing are also reviewed. The final section of the book discusses the future outlook and potential extension of self-healing concepts to other materials (e.g., heritage structures and soils).
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Specificații

ISBN-13: 9783030868796
ISBN-10: 3030868796
Pagini: 226
Ilustrații: VII, 226 p. 26 illus.
Dimensiuni: 155 x 235 mm
Greutate: 0.51 kg
Ediția:1st ed. 2022
Editura: Springer International Publishing
Colecția Springer
Seria Engineering Materials and Processes

Locul publicării:Cham, Switzerland

Cuprins

Fundamentals of self-healing construction materials.- Microencapsulation.- Bacteria based composites.- Shape memory polymers.- Flow networks.- Macrocapsules.- Autogenic approaches.- Metals and alloys.- Monitoring self-healing in construction materials.- Methods for monitoring recovery of mechanical properties.- Techniques for monitoring durability recovery.- Case Studies.

Notă biografică

Antonios Kanellopoulos graduated with a B.Eng. (Hons) from Cardiff University in 2000 in Civil Engineering and obtained an M.Sc. and Ph.D. degrees in 2001 and 2004, respectively, from Cardiff University. In 2005, he joined University College London to undertake an M.Sc. in Project and Enterprises Management. His area of expertise is the development of new cement-based composites with unique properties, tailor-made to meet and satisfy the requirements, and challenges of both present and future infrastructure.
Antonios Kanellopoulos research has been published in 15 international peer-reviewed journal articles and in 30 peer-reviewed conference papers. He has also edited and co-edited two book chapters. Furthermore he has reviewed academic papers for more than 10 international journals, and he is also a member of the editorial board of Elsevier’s open access journal “Heliyon”.
Jose Norambuena-Contreras graduated in 2008 with a B.Eng. (Hons) in Construction Engineering from the Universidad Católica del Maule in Chile and obtained in 2013 a PhD. in Civil Engineering (graduated with Cum Laude honours) from the Universidad de Cantabria in Spain. He developed his PhD thesis in experimental collaboration with the Swiss Laboratories for Materials Science and Technology (EMPA) from the ETH Zürich in Switzerland. From 2017 to 2019, he was a Postdoctoral researcher on self-healing materials at the University of Nottingham in the United Kingdom. His research focuses on developing self-healing bituminous materials from a vision of waste valorisation to build more sustainable and resilient infrastructures for Civil Engineering.Jose Norambuena-Contreras has performed high-level research in the field of Civil Engineering Materials (h-index 21). From 2010 to date, he has published 60 Web of Science (WoS) publications in peer-reviewed journals, eight articles in other Journals and more than 35 peer-reviewed article contributions in national and international conferences. He regularly contributes as an external reviewer in more than 15 WoS peer-reviewed journals on Material Science and Engineering. He has led as guest Editor a Special Issue on Novel Bituminous Materials for Sustainable Pavements in the WoS Journal Advanced in Materials Science and Engineering. Additionally, he has been Principal Investigator (PI) or Co-Investigator (COI) on 18 Research Projects supported by several industries and National and International Funding Agencies.


Textul de pe ultima copertă

This book provides a thorough overview of all techniques for producing self-healing construction materials. Construction materials (cement-based, bituminous, metals, and alloys) are prone to cracking, which with the progress of time can lead to compromising of the structural integrity of critical infrastructure. Self-healing materials form a new class of materials that have inbuilt engineered properties to counteract damage and repair it before it becomes critical. The methods for monitoring, modeling, and assessing self-healing are also reviewed. The final section of the book discusses the future outlook and potential extension of self-healing concepts to other materials (e.g., heritage structures and soils).

Caracteristici

Explores the applications of self-healing construction materials Contains a section on large-scale field trials of self-healing materials Presents chapters by renowned academics all around the world that work on aspects of self-healing construction materials