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Informationen zum Autor Dr. Qinghua Qin received his Bachelor of Engineering degree (1982) in Mechanical Engineering from Chang An University, China and obtained his Master of Science degree (1984) and PhD (1990) in applied mechanics from Huazhong University of Science and Technology (HUST), China. He joined the faculty of the Department of Mechanics at HUST from 1984 until he left for the University of Stuttgart (Germany) with the DAAD/K.C. Wong research fellowship in 1994. From 1995 to 1997, he returned to China as a postdoctoral associate at Tsinghua University. He was awarded the Queen Elizabeth II Fellowship from the Australian Research Council (ARC) in 1997 and a Professorial Fellowship of ARC in 2002 at The University of Sydney, Australia and stayed there till December 2003. He has been a Professor at the Research School of Engineering of the Australian National University, Australia from 2004 to 2021. He is now working at the Department of Engineering, Shenzhen MSU-BIT University, China. He is also appointed a guest professor at HUST since 2000 and Tianjin University since 2006. Jianqiao Ye is Professor and Chair of Mechanical Engineering at Lancaster University, UK and a member of the Lancaster Intelligent, Robotic and Autonomous Systems Centre (LIRA). His research covers a broad range of both academic and industrial interests, including failure and damage of fibre reinforced composites, advanced steel-concrete composite structures, geopolymer, lighter and green cementitious materials, cement and concrete carbonation, offshore oil and gas structures and vibration energy harvesting. He has worked on testing, numerical modelling and optimization of a wider range of materials and structures, which has been extended to the applications of a range of analytical instruments such as X-Ct, SEM, XRD, EDS and data-driven techniques such as metamodelling, machine learning and digital twins. Toughening Mechanisms in Composite Materials aims to provide a comprehensive and technically detailed coverage of composites and their toughening mechanisms. Unique in its direct and comprehensive approach, the book presents fundamental knowledge on composites' toughening mechanisms as well as a comprehensive treatment of numerical methods. This volume summarizes the current state-of-the-art and presents the most recent research outcomes in the field. It details the development of each of the techniques, beginning with basic principles, and new concepts are illustrated with examples wherever possible. ...
Inhaltsverzeichnis
1 Introduction to toughening mechanisms
Part One - Toughening Mechanisms for Particle-reinforced Composites
2 Silicon nitride based ceramic composite materials toughened by rare-earth additives
3 Toughening mechanisms in epoxy/graphene platelets composites
4 Toughening of non-layered nanoparticle polymer composites
Part Two - Toughening Mechanisms for Fibre-reinforced Composites
5 Toughening mechanisms for fibre of middle-large-aspect-ratio-reinforced composites
6 Z-pin toughening mechanisms
7 Toughening mechanisms for Whisker-reinforced composites
8 Toughening mechanisms for glass fiber-reinforced composites
Part Three - Other Toughening Mechanisms for Composite Materials
9 Toughening mechanisms in Zanchor-reinforced composites
10 Interlayer toughening mechanisms of composite materials
11 Toughening mechanisms of nanoparticle-reinforced polymers
12 Toughening mechanisms in dental composites
13 Mechanical behaviour of extra-strong CNT fibers and their composites
14 Toughening mechanisms for fibre reinforced polymer-reinforced concrete beams
