Highly nonlinear granular crystal sensor and actuator for delamination detection in composite structures

J. Yang; F. Restuccia; C. Daraio

Highly nonlinear granular crystal sensor and actuator for delamination detection in composite structures

J. Yang^*, F. Restuccia, C. Daraio

^*Corresponding author for this work

Informatics

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

21 Citations (Scopus)

Abstract

We propose a new "granular crystal sensor and actuator" based on highly nonlinear solitary waves (HNSWs) to detect delaminations in composite structures. HNSWs are compactly-supported energy packets, which are generated by a balance of nonlinear and dispersive effects in nonlinear media. Their unique physical properties allow the usage of HNSWs as novel information carrier for nondestructive evaluation (NDE) and structural health monitoring (SHM) applications. Particularly, HNSW's tunability and high power intensity can enhance sensitivity and energy-efficiency, offering advantages beyond the conventional linear-wave based diagnostic schemes. To efficiently generate and propagate diagnostic HNSWs, we assemble a granular crystal composed of closely packed elastic particles. This granular crystal can function both as actuator and sensor, by exciting a composite structure via injected HNSWs to an area of interest and measuring reflected pulses that carry diagnostic information about defects. In this study, we demonstrate experimentally the ability to detect delaminations in a carbon fiber-reinforced polymer (CFRP) composite panel using a prototype of granular crystal sensor/actuator. Preliminary results show that a compact granular crystal sensor/actuator can successfully detect artificially created delaminations in a composite panel. Due to the compactness and energy-efficiency of the granular crystal sensor/actuator, the proposed diagnostic method has the potential to become a portable and reliable sensing instrument for inspecting structural damages in critical areas of composite structures.

Original language	English
Title of host publication	Structural Health Monitoring 2011
Subtitle of host publication	Condition-Based Maintenance and Intelligent Structures - Proceedings of the 8th International Workshop on Structural Health Monitoring
Pages	1424-1433
Number of pages	10
Volume	2
Publication status	Published - 1 Dec 2011
Event	8th International Workshop on Structural Health Monitoring 2011: Condition-Based Maintenance and Intelligent Structures - Stanford, CA, United States Duration: 13 Sept 2011 → 15 Sept 2011

Conference

Conference	8th International Workshop on Structural Health Monitoring 2011: Condition-Based Maintenance and Intelligent Structures
Country/Territory	United States
City	Stanford, CA
Period	13/09/2011 → 15/09/2011

Cite this

@inproceedings{b9ddc455dac242d4b8069edafc962f26,

title = "Highly nonlinear granular crystal sensor and actuator for delamination detection in composite structures",

abstract = "We propose a new {"}granular crystal sensor and actuator{"} based on highly nonlinear solitary waves (HNSWs) to detect delaminations in composite structures. HNSWs are compactly-supported energy packets, which are generated by a balance of nonlinear and dispersive effects in nonlinear media. Their unique physical properties allow the usage of HNSWs as novel information carrier for nondestructive evaluation (NDE) and structural health monitoring (SHM) applications. Particularly, HNSW's tunability and high power intensity can enhance sensitivity and energy-efficiency, offering advantages beyond the conventional linear-wave based diagnostic schemes. To efficiently generate and propagate diagnostic HNSWs, we assemble a granular crystal composed of closely packed elastic particles. This granular crystal can function both as actuator and sensor, by exciting a composite structure via injected HNSWs to an area of interest and measuring reflected pulses that carry diagnostic information about defects. In this study, we demonstrate experimentally the ability to detect delaminations in a carbon fiber-reinforced polymer (CFRP) composite panel using a prototype of granular crystal sensor/actuator. Preliminary results show that a compact granular crystal sensor/actuator can successfully detect artificially created delaminations in a composite panel. Due to the compactness and energy-efficiency of the granular crystal sensor/actuator, the proposed diagnostic method has the potential to become a portable and reliable sensing instrument for inspecting structural damages in critical areas of composite structures.",

author = "J. Yang and F. Restuccia and C. Daraio",

year = "2011",

month = dec,

day = "1",

language = "English",

isbn = "9781605950532",

volume = "2",

pages = "1424--1433",

booktitle = "Structural Health Monitoring 2011",

note = "8th International Workshop on Structural Health Monitoring 2011: Condition-Based Maintenance and Intelligent Structures ; Conference date: 13-09-2011 Through 15-09-2011",

}

Yang, J, Restuccia, F & Daraio, C 2011, Highly nonlinear granular crystal sensor and actuator for delamination detection in composite structures. in Structural Health Monitoring 2011: Condition-Based Maintenance and Intelligent Structures - Proceedings of the 8th International Workshop on Structural Health Monitoring. vol. 2, pp. 1424-1433, 8th International Workshop on Structural Health Monitoring 2011: Condition-Based Maintenance and Intelligent Structures, Stanford, CA, United States, 13/09/2011.

Highly nonlinear granular crystal sensor and actuator for delamination detection in composite structures. / Yang, J.; Restuccia, F.; Daraio, C.
Structural Health Monitoring 2011: Condition-Based Maintenance and Intelligent Structures - Proceedings of the 8th International Workshop on Structural Health Monitoring. Vol. 2 2011. p. 1424-1433.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Highly nonlinear granular crystal sensor and actuator for delamination detection in composite structures

AU - Yang, J.

AU - Restuccia, F.

AU - Daraio, C.

PY - 2011/12/1

Y1 - 2011/12/1

N2 - We propose a new "granular crystal sensor and actuator" based on highly nonlinear solitary waves (HNSWs) to detect delaminations in composite structures. HNSWs are compactly-supported energy packets, which are generated by a balance of nonlinear and dispersive effects in nonlinear media. Their unique physical properties allow the usage of HNSWs as novel information carrier for nondestructive evaluation (NDE) and structural health monitoring (SHM) applications. Particularly, HNSW's tunability and high power intensity can enhance sensitivity and energy-efficiency, offering advantages beyond the conventional linear-wave based diagnostic schemes. To efficiently generate and propagate diagnostic HNSWs, we assemble a granular crystal composed of closely packed elastic particles. This granular crystal can function both as actuator and sensor, by exciting a composite structure via injected HNSWs to an area of interest and measuring reflected pulses that carry diagnostic information about defects. In this study, we demonstrate experimentally the ability to detect delaminations in a carbon fiber-reinforced polymer (CFRP) composite panel using a prototype of granular crystal sensor/actuator. Preliminary results show that a compact granular crystal sensor/actuator can successfully detect artificially created delaminations in a composite panel. Due to the compactness and energy-efficiency of the granular crystal sensor/actuator, the proposed diagnostic method has the potential to become a portable and reliable sensing instrument for inspecting structural damages in critical areas of composite structures.

AB - We propose a new "granular crystal sensor and actuator" based on highly nonlinear solitary waves (HNSWs) to detect delaminations in composite structures. HNSWs are compactly-supported energy packets, which are generated by a balance of nonlinear and dispersive effects in nonlinear media. Their unique physical properties allow the usage of HNSWs as novel information carrier for nondestructive evaluation (NDE) and structural health monitoring (SHM) applications. Particularly, HNSW's tunability and high power intensity can enhance sensitivity and energy-efficiency, offering advantages beyond the conventional linear-wave based diagnostic schemes. To efficiently generate and propagate diagnostic HNSWs, we assemble a granular crystal composed of closely packed elastic particles. This granular crystal can function both as actuator and sensor, by exciting a composite structure via injected HNSWs to an area of interest and measuring reflected pulses that carry diagnostic information about defects. In this study, we demonstrate experimentally the ability to detect delaminations in a carbon fiber-reinforced polymer (CFRP) composite panel using a prototype of granular crystal sensor/actuator. Preliminary results show that a compact granular crystal sensor/actuator can successfully detect artificially created delaminations in a composite panel. Due to the compactness and energy-efficiency of the granular crystal sensor/actuator, the proposed diagnostic method has the potential to become a portable and reliable sensing instrument for inspecting structural damages in critical areas of composite structures.

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M3 - Conference contribution

AN - SCOPUS:84866690548

SN - 9781605950532

VL - 2

SP - 1424

EP - 1433

BT - Structural Health Monitoring 2011

T2 - 8th International Workshop on Structural Health Monitoring 2011: Condition-Based Maintenance and Intelligent Structures

Y2 - 13 September 2011 through 15 September 2011

ER -

Highly nonlinear granular crystal sensor and actuator for delamination detection in composite structures

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