Handbook of Advances in Braided Composite Materials: Theory, Production, Testing and Applications focuses on the fundamentals of these materials and their associated technology. It provides a one-stop resource that outlines all the significant issues about structural braiding, providing readers with the means by which to produce, test, and design braided composite material structures. It documents the latest research findings into these advanced materials and provides new ideas to encourage greater use of the technology.
- Introduces new modeling and testing procedures
- Presents up-to-date technology developments and recent research findings
- Provides both an Android and IPhone App to support design criteria
Industrial manufacturers of braided composites, academic researchers working in the design and development of braided composites, professional engineers and postgraduate students
2 Working with the enclosed composite apps
Part 1: Manufacturing and Advanced Testing of Braided Composite Materials
3 Manufacturing Processes for Braided Composite Materials
4 Advanced Testing of Braided Composite Materials
Part 2: Predicting Properties and Designing Braided Composite Materials
5 Modeling Braided Composite Materials introduction
6 Micromechanics for Braided Composite Materials
7 Ply Mechanics for Braided Composite Materials
8 Macromechanics for Braided Composite Materials
9 Advances in 2D and 3D Braided Composite Materials Modeling
10 Design of Braided Composite Materials
Part 3: The Next Generation of Braided Composite Materials: Applications (Carey, Ayranci et al)
11 Shape memory composites
12 Nano-structures in braids
15 Green braids
Contributing Chapter Authors:
Dr. Cagri Ayranci obtained his BSc and MSc from the University of Ottawa with a focus on the instrumentation of concrete structures. He earned his PhD at the University of Alberta, during which he focused on 2D braided composites. He is currently an assistant professor and the director of the multifunctional-fibrous-composites laboratory.
Benjamin Cheung is a PhD student at the University of Alberta in Mechanical Engineering. His research focuses on the elastic modeling of braided composites, with experience in braid manufacture and mechanical testing.
Alexander Hunt is an MSc student in mechanical engineering working on developing a quality control image processing system for manufacturing braided textiles.
Marcus Ivey has an MSc in mechanical engineering and a BSc in materials engineering. He has research experience in the areas of polymers and polymer-composite materials, with a focus on characterization and testing.
- No. of pages:
- © Woodhead Publishing 2017
- 13th September 2016
- Woodhead Publishing
- eBook ISBN:
- Hardcover ISBN:
Jason P. Carey is a Professor of Mechanical Engineering at the University of Alberta, Canada. His composite material-based research has led to numerous critical findings translated in over 30 peer-reviewed high impact, top-ranked journal and conference papers. His research team focus on understanding the fundamental behaviour of braided composite materials for biomedical to structural applications.
Professor, Mechanical Engineering, University of Alberta, Canada