Acoustic emission signal analysis and damage mode identification of composite wind turbine blades /

Acoustic Emission Signal Analysis and Damage Mode Identification of Composite Wind Turbine Blades covers both the underlying theory and various techniques for effective structural monitoring of composite wind turbine blades via acoustic emission signal analysis, helping readers solve critical proble...

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Bibliographic Details
Main Author:	Liu, Pengfei (Author)
Corporate Author:	ScienceDirect (Online service)
Format:	eBook
Language:	English
Published:	Amsterdam ; Cambridge, MA : Elsevier, [2023]
Subjects:	Turbines > Blades > Materials. Turbines > Blades > Design and construction. Acoustic emission. Composite construction > Fatigue. Turbines > Aubes > Matériaux. Émission acoustique. acoustic emission. Acoustic emission Composite construction > Fatigue Turbines > Blades > Design and construction Electronic books.
Online Access:	Connect to the full text of this electronic book

Table of Contents:

Front Cover
Acoustic Emission Signal Analysis and Damage Mode Identification of Composite Wind Turbine Blades
Acoustic Emission Signal Analysis and Damage Mode Identification of Composite Wind Turbine Blades
Copyright
Contents
Preface
1
AE health monitoring technique for composite wind turbine blade: a state-of-art review
1.1 Basic structures and damage mechanisms of wind turbine blades
1.2 Structural health monitoring techniques of wind turbine blades
1.3 Basic principles and feature parameters of AE technique
1.4 Defect positioning techniques using AE signals
3
AE tests and signal analysis on delamination of composite laminates under three-point bending and different temperature
3.1 Delamination experiments and AE tests of composite laminates
3.2 Mechanical properties of composite laminates
3.3 AE signal analysis of delamination failure of composite laminates
3.3.1 AE signal analysis of delamination failure of [0°16//0°16] composite specimens under 70°C temperature
3.3.2 AE signal analysis of delamination failure of [30°16//30°16] composite specimens under 70°C temperature
3.3.3 AE signal analysis of delamination failure of [15°/−15°]3s//[15°/−15°]3s composite specimens under 70°C temperature
3.4 Concluding remarks
References
4
AE tests and signal analysis on delamination of composite laminates under three-point bending and hygrothermal environments
4.1 Delamination experiments and AE tests of composite laminates under hygrothermal environment
4.1.1 Mechanical properties of composite laminates
4.1.2 Mechanical properties of composite laminates under room temperature
4.1.3 Mechanical properties of composite laminates under hygrothermal environment
4.1.4 Mechanical properties of composite laminates by considering SLB loading effect
4.1.5 Mechanical properties of composite laminates by considering OLB loading effect
4.2 AE signal analysis of delamination failure of composite laminates under hygrothermal environment
4.2.1 [0°16//0°16] composite specimens
4.2.2 [0°/90°]4s//[0°/90°]4s composite specimens
4.2.3 [15°/−15°]4s//[15°/−15°]4s composite specimens