Innovation in Smart Materials and Structural Health Monitoring for Composite Applications

$125.00

Structural health monitoring (SHM) is an automated approach to determine any changes in the integrity of mechanical system. The SHM system gives information in real time and online. Hence it provides advantages in damage detection, damage localization, damage assessment, and life prediction as well compare to Non-destructive test (NDT) which is conducted offline.

$125.00
$125.00

Innovation in Smart Materials and Structural Health Monitoring for Composite Applications
F. Mustapha, A. Hamdan, Nisreen N. Ali Al-Adnani, K.D. Mohd Aris
Materials Research Foundations Volume 13
Publication Date 2017, 184 Pages
Print ISBN 978-1-945291-28-9 (release date May 2017)
ePDF ISBN 978-1-945291-29-6
DOI: 10.21741/9781945291296

Structural health monitoring (SHM) is an automated approach to determine any changes in the integrity of a mechanical system. The SHM system gives information in real time and online.

The knowledge on Root Mean Square Deviation (RMSD) techniques is employed and presented in this writing. Besides that, SHM system in wind turbine system is becoming very important. This book places emphasize on the application of biocomposite turbine blades for vertical axis wind turbines. The dynamics characterization of mechanical system on biocomposite turbine blades is determined with several techniques. The SHM for biocomposite turbine blades is enhanced in order for it to become a micro energy harvester.

Keywords
Smart Materials, Composites, Structural Health Monitoring, Non-destructive Test, Composite Aircraft Structures, Root Mean Square Deviation (RMSD) , Wind Turbine System, Biocomposite Turbine Blade, Vertical Axis Wind Turbine, Micro Energy Harvester

Table of Contents
Preface
Chapter 1 Smart material and structural health monitoring in composite applications – an innovative approaches in non destructive testing 1
Chapter 2 An overview of structural health monitoring: from hard time to online monitoring 25
Chapter 3 A preliminary study of SHM compared with NDT 48
Chapter 4 Damage identification for composite panels using PZT sensor 76
Chapter 5 The bonded macro fiber composite (MFC) and woven kenaf effect analyses on the micro energy harvester performance of kenaf plate using modal testing and Taguchi method 95
Chapter 6 The macro fiber composite (MFC) bonded effect analysis on the micro energy harvester performance and structural health monitoring system of woven kenaf turbine blade for vertical axis wind turbine application 139
Keywords
About the authors

paperback flyer eBook flyer

About the Editors

Faizal Mustapha received Ph.D. degree in Structural Health Monitoring System from University of Sheffield, U.K, in 2006. Now he works as Associate Professor at Universiti Putra Malaysia, Malaysia. His current research interests include damage identification, sensor technology, advanced material, advanced signal processing.

Ahmad Hamdan Ariffin graduated Ph.D in Structural Health Monitoring System and Biocomposite wind turbine from Universiti Putra Malaysia, Malaysia in 2015. He received Master of Engineering Science degree in Advanced Manufacturing from University of Malaya, Malaysia in 2011. His current research interests include biocomposite, material characterization and manufacturing.

Nisreen N. Ali Al-Adnani graduated PhD in Civil Engineering from Universiti Putra Malaysia, Malaysia in 2014. Her research interests are in composite, Structural Health Monitoring and civil engineering

 

Khairul Dahri Mohd Aris graduated PhD in Composite Structure from Universiti Putra Malaysia, Malaysia in 2014. He works as a senior lecturer as well as a researcher in Malaysian Institute of Aviation Technology, University of Kuala Lumpur. Now, he is focusing in composite of aircraft structure, damage identification and aircraft repair technology.