Author: | ISBN: | 9780081009024 | |
Publisher: | Elsevier Science | Publication: | May 17, 2017 |
Imprint: | Woodhead Publishing | Language: | English |
Author: | |
ISBN: | 9780081009024 |
Publisher: | Elsevier Science |
Publication: | May 17, 2017 |
Imprint: | Woodhead Publishing |
Language: | English |
Dynamic Response and Failure of Composite Materials and Structures presents an overview of recent developments in a specialized area of research with original contributions from the authors who have been asked to outline needs for further investigations in their chosen topic area. The result is a presentation of the current state-of-the art in very specialized research areas that cannot be found elsewhere in the literature.
For example, Massabò presents a newly developed theory for laminated composite plates that accounts for imperfect bonding between layers with new solutions for problems involving thermal effects. This theory is new and computationally-efficient, and the author describes how it fits in the broader context of composite plate theory. Abrate discusses the design of composite marine propellers and presents a detailed derivation of the equations of motion of a rotating blade, including centrifugal effects and the effects of pre-twisting and other geometric parameters.
This book is a major reference resource for academic and industrial researchers and designers working in aerospace, automotives, and the marine engineering industry.
Dynamic Response and Failure of Composite Materials and Structures presents an overview of recent developments in a specialized area of research with original contributions from the authors who have been asked to outline needs for further investigations in their chosen topic area. The result is a presentation of the current state-of-the art in very specialized research areas that cannot be found elsewhere in the literature.
For example, Massabò presents a newly developed theory for laminated composite plates that accounts for imperfect bonding between layers with new solutions for problems involving thermal effects. This theory is new and computationally-efficient, and the author describes how it fits in the broader context of composite plate theory. Abrate discusses the design of composite marine propellers and presents a detailed derivation of the equations of motion of a rotating blade, including centrifugal effects and the effects of pre-twisting and other geometric parameters.
This book is a major reference resource for academic and industrial researchers and designers working in aerospace, automotives, and the marine engineering industry.